Genotype-guided dosing of warfarin with point-of-care genetic testing increased the mean percentage time in target INR range by 7.49% compared to standard clinical care.
Cohort (n=852)
Open-label
Yes
Does genotype-guided dosing of warfarin with point-of-care genetic testing improve the percentage of time in target INR range compared to routine practice in patients requiring anticoagulation?
Implementation of point-of-care genotype-guided dosing for warfarin in routine clinical practice significantly improves the time patients spend in the therapeutic INR range.
Effect estimate: Absolute difference 7.49% (95% CI 3.41-11.57%)
Absolute Event Rate: 62.74% vs 55.25%
p-value: p=0.0004
BACKGROUND: Warfarin is a widely used oral anticoagulant. Determining the correct dose required to maintain the international normalised ratio (INR) within a therapeutic range can be challenging. In a previous trial, we showed that a dosing algorithm incorporating point-of-care genotyping information ('POCT-GGD' approach) led to improved anticoagulation control. To determine whether this approach could translate into clinical practice, we undertook an implementation project using a matched cohort design. METHODS: At three clinics (implementation group; n = 119), initial doses were calculated using the POCT-GGD approach; at another three matched clinics (control group; n = 93), patients were dosed according to the clinic's routine practice. We also utilised data on 640 patients obtained from routinely collected data at comparable clinics. Primary outcome was percentage time in target INR range. Patients and staff from the implementation group also provided questionnaire feedback on POCT-GGD. RESULTS: Mean percentage time in INR target range was 55.25% in the control group and 62.74% in the implementation group; therefore, 7.49% (95% CI 3.41-11.57%) higher in the implementation group (p = 0.0004). Overall, patients and staff viewed POCT-GGD positively, suggesting minor adjustments to allow smooth implementation into practice. CONCLUSIONS: In the first demonstration of the implementation of genotype-guided dosing, we show that warfarin dosing determined using an algorithm incorporating genetic and clinical factors can be implemented smoothly into clinic, to ensure target INR range is reached sooner and maintained. The findings are like our previous randomised controlled trial, providing an alternative method for improving the risk-benefit of warfarin use in daily practice.
Jorgensen et al. (Mon,) conducted a cohort in Atrial fibrillation or venous thromboembolism (n=852). Genotype-guided dosing of warfarin with point-of-care genetic testing vs. Standard clinical care was evaluated on Percentage time in target INR range during the first 3 months (Absolute difference 7.49%, 95% CI 3.41-11.57%, p=0.0004). Genotype-guided dosing of warfarin with point-of-care genetic testing increased the mean percentage time in target INR range by 7.49% compared to standard clinical care.
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