Improving bystander defibrillation in out-of-hospital cardiac arrests at home

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Improving bystander defibrillation in out-of-hospital cardiac arrests at home. / Karlsson, Lena; Hansen, Carolina M; Vourakis, Christina; Sun, Christopher Lf; Rajan, Shahzleen; Søndergaard, Kathrine B; Andelius, Linn; Lippert, Freddy; Gislason, Gunnar H; Chan, Timothy Cy; Torp-Pedersen, Christian; Folke, Fredrik.

In: European Heart Journal: Acute Cardiovascular Care, Vol. 9, No. 4_suppl, 2020, p. S74-S81.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Karlsson, L, Hansen, CM, Vourakis, C, Sun, CL, Rajan, S, Søndergaard, KB, Andelius, L, Lippert, F, Gislason, GH, Chan, TC, Torp-Pedersen, C & Folke, F 2020, 'Improving bystander defibrillation in out-of-hospital cardiac arrests at home', European Heart Journal: Acute Cardiovascular Care, vol. 9, no. 4_suppl, pp. S74-S81. https://doi.org/10.1177/2048872619891675

APA

Karlsson, L., Hansen, C. M., Vourakis, C., Sun, C. L., Rajan, S., Søndergaard, K. B., Andelius, L., Lippert, F., Gislason, G. H., Chan, T. C., Torp-Pedersen, C., & Folke, F. (2020). Improving bystander defibrillation in out-of-hospital cardiac arrests at home. European Heart Journal: Acute Cardiovascular Care, 9(4_suppl), S74-S81. https://doi.org/10.1177/2048872619891675

Vancouver

Karlsson L, Hansen CM, Vourakis C, Sun CL, Rajan S, Søndergaard KB et al. Improving bystander defibrillation in out-of-hospital cardiac arrests at home. European Heart Journal: Acute Cardiovascular Care. 2020;9(4_suppl):S74-S81. https://doi.org/10.1177/2048872619891675

Author

Karlsson, Lena ; Hansen, Carolina M ; Vourakis, Christina ; Sun, Christopher Lf ; Rajan, Shahzleen ; Søndergaard, Kathrine B ; Andelius, Linn ; Lippert, Freddy ; Gislason, Gunnar H ; Chan, Timothy Cy ; Torp-Pedersen, Christian ; Folke, Fredrik. / Improving bystander defibrillation in out-of-hospital cardiac arrests at home. In: European Heart Journal: Acute Cardiovascular Care. 2020 ; Vol. 9, No. 4_suppl. pp. S74-S81.

Bibtex

@article{34e87a16fb664110b633e303ff62acbe,

title = "Improving bystander defibrillation in out-of-hospital cardiac arrests at home",

abstract = "AIMS: Most out-of-hospital cardiac arrests occur at home with dismal bystander defibrillation rates. We investigated automated external defibrillator coverage of home arrests, and the proportion potentially reachable with an automated external defibrillator before emergency medical service arrival according to different bystander activation strategies.METHODS AND RESULTS: Cardiac arrests in homes (private/nursing/senior homes) in Copenhagen, Denmark (2008-2016) and registered automated external defibrillators (2007-2016), were identified. Automated external defibrillator coverage (distance from arrest to automated external defibrillator) and accessibility at the time of arrest were examined according to route distance to nearest automated external defibrillator and emergency medical service response time. The proportion of arrests reachable with an automated external defibrillator by bystander was calculated using two-way (from patient to automated external defibrillator and back) and one-way (from automated external defibrillator to patient) potential activation strategies. Of 1879 home arrests, automated external defibrillator coverage ≤100 m was low (6.3%) and a two-way bystander could potentially only retrieve an accessible automated external defibrillator before emergency medical service in 31.1% (n=37) of cases. If a bystander only needed to travel one-way to bring an automated external defibrillator (≤100 m, ≤250 m and ≤500 m), 45.4% (n=54/119), 37.1% (n=196/529) and 29.8% (n=350/1174) could potentially be reached before the emergency medical service based on current automated external defibrillator accessibility.CONCLUSIONS: Few home arrests were reachable with an automated external defibrillator before emergency medical service if bystanders needed to travel from patient to automated external defibrillator and back. However, nearly one-third of arrests ≤500 m of an automated external defibrillator could be reached before emergency medical service arrival if the bystander only needed to travel one-way from the automated external defibrillator to the patient.",

author = "Lena Karlsson and Hansen, {Carolina M} and Christina Vourakis and Sun, {Christopher Lf} and Shahzleen Rajan and S{\o}ndergaard, {Kathrine B} and Linn Andelius and Freddy Lippert and Gislason, {Gunnar H} and Chan, {Timothy Cy} and Christian Torp-Pedersen and Fredrik Folke",

year = "2020",

doi = "10.1177/2048872619891675",

language = "English",

volume = "9",

pages = "S74--S81",

journal = "European Heart Journal: Acute Cardiovascular Care",

issn = "2048-8726",

publisher = "SAGE Publications",

number = "4_suppl",

}

RIS

TY - JOUR

T1 - Improving bystander defibrillation in out-of-hospital cardiac arrests at home

AU - Karlsson, Lena

AU - Hansen, Carolina M

AU - Vourakis, Christina

AU - Sun, Christopher Lf

AU - Rajan, Shahzleen

AU - Søndergaard, Kathrine B

AU - Andelius, Linn

AU - Lippert, Freddy

AU - Gislason, Gunnar H

AU - Chan, Timothy Cy

AU - Torp-Pedersen, Christian

AU - Folke, Fredrik

PY - 2020

Y1 - 2020

N2 - AIMS: Most out-of-hospital cardiac arrests occur at home with dismal bystander defibrillation rates. We investigated automated external defibrillator coverage of home arrests, and the proportion potentially reachable with an automated external defibrillator before emergency medical service arrival according to different bystander activation strategies.METHODS AND RESULTS: Cardiac arrests in homes (private/nursing/senior homes) in Copenhagen, Denmark (2008-2016) and registered automated external defibrillators (2007-2016), were identified. Automated external defibrillator coverage (distance from arrest to automated external defibrillator) and accessibility at the time of arrest were examined according to route distance to nearest automated external defibrillator and emergency medical service response time. The proportion of arrests reachable with an automated external defibrillator by bystander was calculated using two-way (from patient to automated external defibrillator and back) and one-way (from automated external defibrillator to patient) potential activation strategies. Of 1879 home arrests, automated external defibrillator coverage ≤100 m was low (6.3%) and a two-way bystander could potentially only retrieve an accessible automated external defibrillator before emergency medical service in 31.1% (n=37) of cases. If a bystander only needed to travel one-way to bring an automated external defibrillator (≤100 m, ≤250 m and ≤500 m), 45.4% (n=54/119), 37.1% (n=196/529) and 29.8% (n=350/1174) could potentially be reached before the emergency medical service based on current automated external defibrillator accessibility.CONCLUSIONS: Few home arrests were reachable with an automated external defibrillator before emergency medical service if bystanders needed to travel from patient to automated external defibrillator and back. However, nearly one-third of arrests ≤500 m of an automated external defibrillator could be reached before emergency medical service arrival if the bystander only needed to travel one-way from the automated external defibrillator to the patient.

AB - AIMS: Most out-of-hospital cardiac arrests occur at home with dismal bystander defibrillation rates. We investigated automated external defibrillator coverage of home arrests, and the proportion potentially reachable with an automated external defibrillator before emergency medical service arrival according to different bystander activation strategies.METHODS AND RESULTS: Cardiac arrests in homes (private/nursing/senior homes) in Copenhagen, Denmark (2008-2016) and registered automated external defibrillators (2007-2016), were identified. Automated external defibrillator coverage (distance from arrest to automated external defibrillator) and accessibility at the time of arrest were examined according to route distance to nearest automated external defibrillator and emergency medical service response time. The proportion of arrests reachable with an automated external defibrillator by bystander was calculated using two-way (from patient to automated external defibrillator and back) and one-way (from automated external defibrillator to patient) potential activation strategies. Of 1879 home arrests, automated external defibrillator coverage ≤100 m was low (6.3%) and a two-way bystander could potentially only retrieve an accessible automated external defibrillator before emergency medical service in 31.1% (n=37) of cases. If a bystander only needed to travel one-way to bring an automated external defibrillator (≤100 m, ≤250 m and ≤500 m), 45.4% (n=54/119), 37.1% (n=196/529) and 29.8% (n=350/1174) could potentially be reached before the emergency medical service based on current automated external defibrillator accessibility.CONCLUSIONS: Few home arrests were reachable with an automated external defibrillator before emergency medical service if bystanders needed to travel from patient to automated external defibrillator and back. However, nearly one-third of arrests ≤500 m of an automated external defibrillator could be reached before emergency medical service arrival if the bystander only needed to travel one-way from the automated external defibrillator to the patient.

U2 - 10.1177/2048872619891675

DO - 10.1177/2048872619891675

M3 - Journal article

C2 - 32166951

VL - 9

SP - S74-S81

JO - European Heart Journal: Acute Cardiovascular Care

JF - European Heart Journal: Acute Cardiovascular Care

SN - 2048-8726

IS - 4_suppl

ER -

ID: 261238372

Forskning