Improving Anticoagulation Control in VISN 1
Behavioral: Outreach, Education, and Motivational Interviewing
|Study Design:||Allocation: Non-Randomized
Intervention Model: Parallel Assignment
Masking: No masking
Primary Purpose: Health Services Research
|Official Title:||Improving Anticoagulation Control in VISN 1|
- Percent time in therapeutic range [ Time Frame: Up to 4 years ]Percent time in therapeutic INR range (TTR) is a summary measure of anticoagulation control over time. TTR will be measured in 6 month intervals at the level of the individual patient and also aggregated at the site level.
- Rate of 56-day gaps in monitoring per patient-year among patients receiving anticoagulation with warfarin [ Time Frame: Up to 4 years ]Gaps in INR monitoring have been associated with poor control and outcomes. We will be measuring the rate of such gaps at the level of the individual patient and also aggregated at the site level.
- Days until follow-up after a high INR value (>4.0) [ Time Frame: Up to 4 years ]A prolonged interval until the next INR test after a high INR has been associated with poor control and outcomes. We will be measuring the number of days until the next INR value after a high INR at the individual patient and also aggregated at the site level.
- Days until follow-up after a low INR value (1.5 or lower) [ Time Frame: Up to 4 years ]A prolonged interval until the next INR test after a low INR has been associated with poor control and outcomes. We will be measuring the number of days until the next INR value after a low INR at the individual patient and also aggregated at the site level.
- Mean INR value among patients with an INR target of 2-3 [ Time Frame: Up to 4 years ]Mean INR value is a proxy measure for the actual target range that was used. If the clinician is truly attempting to achieve an INR of 2.5, then the mean INR should be very close to that over time, although individual values may be higher or lower. A mean INR value below 2.3 or above 2.7 is associated with poor anticoagulation control. We will be measuring the mean INR value at the individual patient and also aggregated at the site level.
|Actual Study Start Date:||October 1, 2014|
|Study Completion Date:||September 30, 2016|
|Primary Completion Date:||September 30, 2016 (Final data collection date for primary outcome measure)|
No Intervention: Control Group
Patients in the top 75% of TTR at baseline
Experimental: Intervention Group
Patients in the bottom 25% of TTR at baseline
Behavioral: Outreach, Education, and Motivational Interviewing
Patients in the bottom 25% of TTR at baseline will receive an outreach message delivered at a routine care visit. The outreach message will inform them that their control is poor and this puts them at risk for bad outcomes. They will be offered an invitation to attend an education session to learn more about how to self-manage warfarin therapy. This session will be delivered by local clinical staff, using materials that we will provide. Finally, we will educate local clinical staff in the use of motivational interviewing (MI) and will provide a manual to help them deliver MI-based care. They will be asked to deliver MI-based care specifically to patients in the intervention group.
Background: Over 100,000 VA patients receive oral anticoagulation (AC) each year to prevent blood clots, including strokes. AC is safer and more effective when it is managed skillfully and therefore well-controlled. AC control can be measured using percent time in therapeutic range (TTR), the proportion of time when patients are sufficiently anticoagulated to prevent clots but not excessively anticoagulated (which increases the risk of bleeding). The investigators have shown that the anticoagulation clinics (ACCs) of the VA vary widely on TTR, from 40% (very poor control) to 70% (excellent control). Improving TTR in the VA would prevent thousands of adverse events, including strokes, major hemorrhages, and deaths. The investigators have further investigated the structures and processes of care that contribute to these wide disparities in TTR performance.
Objectives: In this proposed study, the investigators will apply proven methods to change provider behavior and improve patient adherence and self-management. The goal will be to facilitate the adoption of these evidence-based practices in order to improve TTR in VISN 1. The investigators will accomplish this through a two-part intervention: 1) A clinician-focused intervention will utilize educational outreach, audit and feedback, internal facilitation, and external facilitation to promote improvements in four evidence-based processes of care. 2) A patient-focused intervention will utilize outreach, a group educational seminar, and motivational interviewing to educate patients with poor baseline anticoagulation control and promote behavior change.
Methods: The clinician-focused intervention will use a Dashboard to measure site-level TTR and processes of care and an Algorithm for routine AC management. Both the Dashboard and the Algorithm are concrete representations of our main evidence-based recommendations to improve AC management. The investigators will promote their use through quarterly visits to the sites, which will include audit and feedback and educational outreach, and also provide external facilitation to address ways to improve these performance measures. The patient-level intervention will be delivered to the 25% of VISN patients with low TTR at baseline (<50%). ACC staff will identify such patients using the Dashboard, and will send them an outreach letter inviting them to attend a brief educational seminar. All intervention patients, whether or not they attended the seminar, will receive follow-up management including motivational interviewing (MI) to address behavior change. The main outcome for Aim 1 is change in site TTR over time, which will be compared between VISN 1 and non-VISN 1 sites using an interrupted time series. The main outcome for Aim 2 is change in patient-level TTR, for which intervention and control patients will be compared using a regression discontinuity analysis. Secondary outcomes will include site-level changes in processes of anticoagulation care (measured using automated data), costs and cost savings, and sustainability of changes over time.
Anticipated Impact: The goal of this project is to increase TTR in VISN 1 to 75%, far higher than any other VISN. Such improvement in TTR is associated with greatly reduced rates of adverse events for patients. Improved TTR will save more money than our intervention will cost, in large part because of efficiencies of management and less-frequent follow-up for better controlled patients. At the conclusion of this regional project, the investigators will promote the spread of these interventions throughout the VHA.
Please refer to this study by its ClinicalTrials.gov identifier: NCT01653405
|United States, Massachusetts|
|Edith Nourse Rogers Memorial Veterans Hospital, Bedford, MA|
|Bedford, Massachusetts, United States, 01730|
|Principal Investigator:||Ann M. Borzecki, MD MPH||Edith Nourse Rogers Memorial Veterans Hospital, Bedford, MA|