7 Thus, the study by Huang et al 2 seems to confirm earlier evidence suggesting that the optimal INR target in Asian patients may be lower than that recommended in evidence-based guidelines. 6 In patients who achieved similar INR control, the hazard ratio for intracranial hemorrhage (ICH) for Asian individuals was 4.06 (95% CI, 2.47-6.65) compared with White patients. 3 - 5 In a cohort of Hong Kong Chinese patients receiving warfarin therapy, an INR between 1.8 and 2.4 appeared to be associated with the lowest rates of major bleeding or thromboembolic events. Using the RCS variable and a reference INR of 2.5, the lowest risk of thromboembolic events was estimated at INRs between 2.1 and 2.7 and the lowest risk of bleeding events at INRs between 2.1 and 2.8.Ī number of previous studies have documented lower warfarin requirements in Chinese patients (3 mg/d) compared with White patients (4-6 mg/d), suggesting that Chinese patients have increased sensitivity to warfarin. However, no significant association was observed between INR and thromboembolic events. In the combined MVR and MVR-AVR group (reference INR, 2.5-3.0), the odds of bleeding events were significantly higher when the INR was 3.5 or greater (aOR, 2.25 95% CI, 1.35-3.76). A separate regression model created using a restricted cubic spline variable and a reference INR of 2.0 estimated the lowest risk of thromboembolic events at INRs between 2.0 and 2.6 and the lowest risk of bleeding events at INRs between 1.8 and 2.4. In the AVR-alone group, using various 0.5–INR point ranges (reference INR, 2.0-2.5), the adjusted odds of thromboembolic events were significantly higher when the INR was less than 1.5 (adjusted odds ratio : 2.55 95% CI, 1.37-4.73), and bleeding events were significantly higher with INRs of 3.0 or greater (aOR, 3.48 95% CI, 1.95-6.23). For both the AVR-alone and the combined MVR and MVR-AVR groups, the familiar U-shaped distribution of outcome events emerged, with increased thromboembolic events at low INR values and increased bleeding events at higher INRs. Patients who received AVR alone (n = 474) were analyzed separately from those receiving MVR alone or combined MVR-AVR (n = 426). The association between INR and bleeding/thromboembolic events was assessed. To facilitate estimation of INR values at the time of outcome events, only outcomes occurring between 1 day before to 7 days after the date of measured INR tests were included. Primary outcomes were composites of bleeding or thromboembolic events. These patients were followed up from the first INR examination after surgery discharge. Using a large electronic medical record database in Taiwan, the authors identified patients who received mechanical AVR and/or MVR between January 1, 2001, to December 31, 2018. Specifically, the study by Huang et al 2 sought to identify the optimal INR for patients of Asian ancestry after mechanical aortic valve replacement (AVR) and/or mitral valve replacement (MVR). 1 Despite its history of use, is this one-size-fits-all approach to INR targets appropriate for achieving desired outcomes for patients with differing sensitivity to warfarin’s anticoagulant effect-particularly patients of Asian descent? This question is addressed in research published by Huang et al 2 elsewhere in JAMA Network Open. For patients with mechanical mitral valve replacements, a slightly higher target of 3.0, with a range of 2.5 to 3.5, is recommended. The INR target recommended in evidence-based guidelines for most warfarin indications is currently 2.5, with a range of 2.0 to 3.0. The optimal international normalized ratio (INR) target for warfarin therapy has evolved through decades of use as additional information sheds light on the best balance between preventing pathologic thrombus formation while limiting bleeding complications.
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