Maximizing the population benefit from thrombolysis in acute ischemic stroke: a modeling study of in-hospital delays
Maximizing the population benefit from thrombolysis in acute ischemic stroke: a modeling study of in-hospital delays
BACKGROUND AND PURPOSE:
To maximize the benefits of thrombolysis, it is necessary not only to treat more patients, but to deliver treatment as early as possible. The aims of our study were to prospectively evaluate the clinical benefit from reducing delays in the emergency stroke pathway at our district hospital and examine outcomes from scenarios that include extension of the alteplase license.
METHODS:
We developed a discrete-event simulation from prospective data for patients with stroke arriving at our large district hospital. We modeled current practice and assessed the impact on stroke outcomes of measures to reduce in-hospital delays to alteplase treatment and of extensions to the European license for alteplase from 3 to 4.5 hours and to people aged >80 years.
RESULTS:
Extension of the time window to 4.5 hours increases the thrombolysis rate by 4%, yielding an additional 2 patients per year with minimal or no disability at 3 months. Time window extension is most effective when combined with a system of prealerts, achieving a thrombolysis rate of 15% and an additional 8 patients per year with minimal or no disability, increasing to 13 patients per year with extension of the license to patients >80 years.
CONCLUSIONS:
If implemented alone, extension of the time window for alteplase has only a modest additional population disability benefit, but this benefit can be increased 5-fold if time window extension is combined with substantial reductions to in-hospital delays.
emergency treatment of stroke, simulation, thrombolysis
2706-2711
Monks, Thomas
fece343c-106d-461d-a1dd-71c1772627ca
Pitt, Martin
754f5149-06d7-461b-8632-9bda2c79095e
Stein, Ken
dba3ca57-81c5-4172-a80e-2b38f61a7cc1
James, Martin
cdc24687-d17d-4bec-aed7-f827777f6b7a
October 2012
Monks, Thomas
fece343c-106d-461d-a1dd-71c1772627ca
Pitt, Martin
754f5149-06d7-461b-8632-9bda2c79095e
Stein, Ken
dba3ca57-81c5-4172-a80e-2b38f61a7cc1
James, Martin
cdc24687-d17d-4bec-aed7-f827777f6b7a
Monks, Thomas, Pitt, Martin, Stein, Ken and James, Martin
(2012)
Maximizing the population benefit from thrombolysis in acute ischemic stroke: a modeling study of in-hospital delays.
Stroke, 43 (10), .
(doi:10.1161/strokeaha.112.663187).
(PMID:22895996)
Abstract
BACKGROUND AND PURPOSE:
To maximize the benefits of thrombolysis, it is necessary not only to treat more patients, but to deliver treatment as early as possible. The aims of our study were to prospectively evaluate the clinical benefit from reducing delays in the emergency stroke pathway at our district hospital and examine outcomes from scenarios that include extension of the alteplase license.
METHODS:
We developed a discrete-event simulation from prospective data for patients with stroke arriving at our large district hospital. We modeled current practice and assessed the impact on stroke outcomes of measures to reduce in-hospital delays to alteplase treatment and of extensions to the European license for alteplase from 3 to 4.5 hours and to people aged >80 years.
RESULTS:
Extension of the time window to 4.5 hours increases the thrombolysis rate by 4%, yielding an additional 2 patients per year with minimal or no disability at 3 months. Time window extension is most effective when combined with a system of prealerts, achieving a thrombolysis rate of 15% and an additional 8 patients per year with minimal or no disability, increasing to 13 patients per year with extension of the license to patients >80 years.
CONCLUSIONS:
If implemented alone, extension of the time window for alteplase has only a modest additional population disability benefit, but this benefit can be increased 5-fold if time window extension is combined with substantial reductions to in-hospital delays.
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More information
e-pub ahead of print date: 14 August 2012
Published date: October 2012
Keywords:
emergency treatment of stroke, simulation, thrombolysis
Organisations:
Faculty of Health Sciences
Identifiers
Local EPrints ID: 367143
URI: http://eprints.soton.ac.uk/id/eprint/367143
ISSN: 0039-2499
PURE UUID: cd06b0cf-1236-4ffe-9c79-7ff8197ddb3f
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Date deposited: 06 Aug 2014 10:54
Last modified: 14 Mar 2024 17:24
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Contributors
Author:
Thomas Monks
Author:
Martin Pitt
Author:
Ken Stein
Author:
Martin James
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