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Computerized Decision Support to Prevent Stroke in Atrial Fibrillation (AF-ALERT3)

Mass General Brigham logo

Mass General Brigham

Status

Begins enrollment this month

Conditions

Atrial Fibrillation
Stroke

Treatments

Behavioral: Alert-based computerized decision support

Study type

Interventional

Funder types

Other
Industry

Identifiers

NCT06355986
39039039AFL4016

Details and patient eligibility

About

Atrial fibrillation (AF) is the most preventable cause of stroke. However, despite widely available risk stratification tools, numerous options for oral anticoagulation, and evidence-based practice guidelines, anticoagulation for stroke prevention in AF is consistently under-prescribed. In a pair of observational cohort analyses within the Mass General Brigham (MGB) health system, prescription of anticoagulation for stroke prevention in AF was less frequent in ambulatory clinic patients than in those who were hospitalized at the time of assessment (46.9% vs. 57.2%). Two single academic medical center randomized controlled trials demonstrated success for increasing adherence to guideline recommendations for stroke prevention in AF. To address the feasibility and impact of a computerized decision support (CDS) strategy in the non-tertiary care, community medical center setting, this study will involve a multicenter, cluster-randomized controlled trial of a more sophisticated CDS focused not only on implementation stroke prevention but also on bleeding risk assessment and management.

Full description

Atrial fibrillation (AF) is the most preventable cause of stroke. However, despite widely available risk stratification tools, numerous options for oral anticoagulation, and evidence-based practice guidelines, anticoagulation for stroke prevention in AF is consistently under-prescribed. In a pair of observational cohort analyses within the MGB health system, prescription of anticoagulation for stroke prevention in AF was less frequent in ambulatory clinic patients than in those who were hospitalized at the time of assessment (46.9% vs. 57.2%). Implementation science strategies, including computerized decision support (CDS), have been proposed as solutions to improve adherence to guideline recommendations. A previously conducted randomized controlled trial of alert-based CDS in 458 high-risk hospitalized patients with AF who were not being anticoagulated showed that the alert nearly tripled the proportion of hospitalized patients with AF and high-risk of stroke who were prescribed anticoagulation during the hospitalization, at discharge, and at 90 days compared with the control group. CDS in this trial was associated with an 88% reduction in the frequency of stroke or systemic embolic event and 87% reduction in the frequency of myocardial infarction (MI) at 90 days. A subsequent trial demonstrated that clinician-directed, alert-based CDS doubled prescription of antithrombotic therapy in high-risk ambulatory care patients with AF who were not prescribed anticoagulation at the time of randomization. A major lesson from the second trial was the importance that perceived bleeding risk played in the shared decision-making process between clinician and patient. These two trials demonstrated that bleeding risk is the predominant consideration when omitting anticoagulation or choosing to bypass a CDS alert. Clinicians often overestimate bleeding risk compared with objective bleeding risk scores (HAS-BLED).

Both prior trials were executed at a large tertiary-care center in Boston, Massachusetts. The feasibility and impact of an alert-based CDS strategy to improve stroke prevention in AF among ambulatory care patients in the community setting and outside of major tertiary-care centers remains to be determined. To address the feasibility and impact of a CDS strategy in the non-tertiary care, community medical center setting, this study will involve a multicenter, community-based, cluster-randomized controlled trial of a more sophisticated CDS focused not only on implementation stroke prevention but also on bleeding risk assessment and management.

Enrollment

2,500 estimated patients

Sex

All

Ages

18+ years old

Volunteers

No Healthy Volunteers

Inclusion criteria

  • Male and Female
  • Age ≥ 18 years
  • Problem list entry of atrial fibrillation or atrial flutter
  • CHA2DS2VASc score ≥ 2 for males
  • CHA2DS2VASc score ≥ 3 for females
  • No prescription for anticoagulant therapy

Exclusion criteria

  • Active prescription for anticoagulant therapy
  • CHA2DS2VASc score < 2 for males
  • CHA2DS2VASc score ≤ 2 for females

Trial design

Primary purpose

Prevention

Allocation

Randomized

Interventional model

Parallel Assignment

Masking

Triple Blind

2,500 participants in 2 patient groups

Alert
Experimental group
Description:
For Alert cluster sites, an on-screen electronic alert will be issued during the outpatient clinical encounter that notifies the provider that his or her patient is at risk for stroke due to AF, and that there is no order for anticoagulation. Clinicians who receive the computer alert will have three options: 1) access an order template of United States (US) Food and Drug Administration (FDA)-approved anticoagulation regimens for stroke prevention in AF, 2) follow a link to evidence-based clinical practice guidelines to learn more about stroke prevention in AF, or 3) continue with order entry after providing an explanation for why anticoagulation was not prescribed.
Treatment:
Behavioral: Alert-based computerized decision support
No Alert
No Intervention group
Description:
For No Alert cluster sites, no computerized alert notification will be issued to providers.

Trial contacts and locations

2

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Central trial contact

Benjamin Peterson, MD; Gregory Piazza, MD, MS

Data sourced from clinicaltrials.gov

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