key: cord-0825517-4bp6k90y authors: Goudis, Christos; Daios, Stylianos; Korantzopoulos, Panagiotis; Liu, Tong title: Does CHA2DS2-VASc score predict mortality in chronic kidney disease? date: 2021-07-07 journal: Intern Emerg Med DOI: 10.1007/s11739-021-02799-5 sha: 68d3797f1caa0ad9e1dbae58ac0fba1fe2295bec doc_id: 825517 cord_uid: 4bp6k90y Chronic kidney disease (CKD) is a leading cause of morbidity and mortality worldwide. Assessment of cardiovascular (CV) and all-cause mortality in CKD patients is of particular importance. CHA2DS2-VASc (congestive heart failure, hypertension, age ≥ 75 years, diabetes, prior stroke, vascular disease, age 65–74 years, and sex) score was originally formulated to predict the annual thromboembolic risk in patients with nonvalvular atrial fibrillation (AF). The calculation of R2CHADS2 and R2CHA2DS2VASc scores awarded an additional 2 points for CrCl < 60 mL/min and GFR < 60 mL/min/1.73 m(2). Recent studies have investigated whether CHA2DS2-VASc and R2CHADS ± VASC scores could be used to predict CV or all-cause mortality in patients with CKD. CHA2DS2-VASc score was proven to be a significant predictor of CV and all-cause mortality in CKD patients, and a higher CHA2DS2-VASc score was associated with increased mortality. These findings are quite promising, and they may help physicians to identify high-risk groups in this population. Chronic kidney disease (CKD) has been recognized as a leading cause of morbidity and mortality worldwide [1] . The global estimated prevalence of CKD is 13.4% [2] and has been almost doubled over the last three decades due to the decrease in mortality from cardiovascular (CV) and infectious diseases, as well as the population's progressive aging [1] . According to international guidelines, CKD is diagnosed if one or both of the following two criteria are met for at least 3 months: (a) glomerular filtration rate (GFR) < 60 mL/min per 1.73 m 2 (b) markers of kidney damage (1 or more): (i) albuminuria [albumin to creatinine ratio (ACR) ≥ 30 mg/g] (ii) urinary sediment abnormality (iii) electrolyte or other abnormality due to tubular disorder (iv) abnormalities on histology (v) structural abnormalities detected by imaging vi) history of kidney transplantation [3] . In 2016, CKD caused 1.19 million deaths globally, which has increased by 28.8% from 2006 [4] . According to World Health Organization estimates, CKD will rank 13th in 2030 among the most common causes of death [5] . The kidney early evaluation program (KEEP) enrolled patients at high risk for developing CKD and contributed to our understanding on CV risk stratification, prognosis and treatment in this setting [6] . CKD was proved to be a significant predictor (OR: 1.44; 95% CI 1.27-1.63) of premature CV death, defined as the occurrence of myocardial infarction or stroke before 55 years in males and 65 years in females [6] . In a longitudinal analysis restricted to a subgroup of KEEP cohort with CKD, lower eGFR, increased albuminuria and diabetes mellitus (DM) have been found as significant predictors of mortality [7] . Both proteinuria and reduction in GFR can predict the development of fatal and non-fatal CV events, regardless of traditional CV risk factors, namely hypertension, smoking, hyperlipidemia, age and gender [8] . Therefore, assessing the risk of adverse outcomes and especially mortality associated with CKD is of particular importance for both physicians and patients [9] . At the moment, only one risk model has been developed to predict the occurrence of non-fatal CV events, renal failure requiring transplantation and death, in patients with eGFR < 30 ml/ min/1.73 m 2 based on parameters that are readily available in routine clinical practice (age, sex, race, eGFR, systolic blood pressure, history of CV disease, DM, urine ACR and smoking) [10] . CHADS2 is a simple score and was initially used for stroke risk stratification in AF. It was derived by the combination of stroke risk factors established in AFI and SPAF studies [11] . CHADS2 was formed by assigning 1 point each for the presence of congestive heart failure, hypertension, age ≥ 75 years, DM and 2 points for history of stroke or transient ischemic attack [11] . CHADS2 manages well in identifying high-risk patients but provides ambiguous results in those at low or moderate stroke risk [12] . As a result, it was subjected to criticism for: (i) low discrimination ability for patients at low risk of stroke (ii) absence of important independent stroke and thromboembolic risk factors (iii) discrepancy between the original validation and further applications in guidelines and real-world cohorts [13, 14] . CHA2DS2-VASc [congestive heart failure, hypertension, age ≥ 75 years, diabetes, prior stroke, vascular disease, age 65-74 years and sex (female) category] score was originally formulated to predict the annual thromboembolic risk in patients with nonvalvular AF [15, 16] . CHA2DS2-VASc is a simple, effective and easy-to-use tool for truly low-risk and truly high-risk patients, but it has difficulties in tailoring anticoagulant treatment in AF patients at intermediate risk of stroke [17] . In individuals with AF and a CHA2DS2-VASc score of 1, therapeutic decisions should be based on the individual balance between thromboembolic and bleeding risk [18] . R2CHADS2 score incorporates the components of CHADS2 score and awards 2 points for renal dysfunction (CrCl < 60 mL/min and GFR < 60 mL/min/1.73 m 2 ) [19] . It was derived from study subjects enrolled in ROCKET-AF trial. The post hoc analysis of outcomes in ROCKET AF found that impaired renal function is independently associated with the occurrence of stroke or systemic embolism during follow-up of patients with a relatively high risk of stroke (mean CHADS2 score 3.5) receiving warfarin or rivaroxaban. R2CHADS2 score enhanced stroke risk assessment based on the net reclassification index by 8.2% compared with CHADS2 score and by 6.2% compared with CHA2DS2-VASc score [19] . Piccini et al. applied this model to the ATRIA cohort of > 13 000 patients with nonvalvular AF to validate R2CHADS2 score in an independent population of patients with AF across a broader range of inherent risk [19] . R2CHADS2 risk score exhibited similar power to CHADS2 score regarding stroke occurrence (C statistics 0.672 and 0.673, respectively), however, net stroke risk reclassification was improved 17.4% (95% CI 12.1-22.5%) with R2CHADS2 score. The findings were similar when applied to patients not receiving warfarin (C statistics 0.696 versus 0.704 for R2CHADS2 and CHADS2 scores, respectively). Net reclassification index improved with R2CHADS2 by 22.6% (95% CI 14.5-30.7%) [19] . In the same way, R2CHA2DS2VASc score awards an additional 2 points for CrCl < 60 mL/min and GFR < 60 mL/ min/1.73 m 2 and has already been used to predict long-term outcomes for patients with coronary artery disease (CAD)20 and acute coronary syndromes (ACS) [20] [21] [22] . The validity of CHA2DS2-VASc score in predicting ischemic stroke and thromboembolism has been extended beyond the originally proposed AF field. High CHA2DS2-VASc scores have been associated with increased mortality in patients with several diseases, irrespective of the presence or absence of AF. CHADS2, CHA2DS2-VASc and R2CHADS2 scores have been associated with higher incidence of mortality in patients with stable CAD and ACS [23] . Compared to CHADS2, CHA2DS2-VASc and R2CHADS2 scores provide better discrimination and reclassification for mortality. In addition, CHA2DS2-VASc and R2CHADS2 scores have comparable predictive ability of mortality to GRACE score [23] . CHA2DS2-VASc score was proven to be useful in predicting mortality in HF patients, irrespective of the presence or absence of AF, ischemic or non-ischemic etiology, and reduced or preserved EF [24] . In the same line, Chen et al. also reported that CHADS2, CHA2DS2-VASc and R2CHADS2 scores are moderately accurate predictors of all-cause mortality in systolic HF patients with or without AF. However, only CKD and R2CHADS2 scores seem to be independent predictors of 1 year all-cause mortality in this setting. In terms of predicting all-cause mortality in systolic HF patients, R2CHADS2 seems to be the best of the three scoring systems, especially in systolic HF patients without AF [25] . Moreover, CHA2DS2-VASC score highly predicts all-cause mortality in patients' acute ischemic stroke [26] , ICD [27] , and acute pulmonary embolism [28] . CHADS2, CHA2DS2-VASc and CHA2DS2-VASc-M (modified version of the CHA2DS2-VASc scoring system in which 1 point was assigned to male instead of female sex) have also been significantly associated with all-cause mortality in COVID-19 patients [29] . The purpose of this paper is to present the latest knowledge and to describe recent studies investigating whether CHA2DS2-VASc score could be used to predict CV or all-cause mortality in CKD patients, with or without AF. In AF patients with end-stage renal disease (ESRD) on dialysis, Wang et al. reported that CHA2DS2-VASc score predicts mortality during follow-up [30] . Shih et al. also reported mortality in patients with new onset AF undergoing hemodialysis. An increase in CHA2DS2-VASc score was associated with increased mortality in this setting. The annual risk of all-cause death for patients with a CHA2DS2-VASc score of 0 was 10.03% and for those with a CHA2DS2-VASc score of 9 was 63.10%, respectively [31] . Fu et al. refined the CHADS2 and CHA2DS-2VASc scores by combining creatinine clearance (CrCl) and GFR, and evaluated the performance of CrCl-based and GFR-based schemes in death risk stratification of Chinese patients > 60 years old with AF. Renal function was evaluated with CrCl formula and different GFR formulas, as well. Five different kinds of R2CHADS2 and R2CHA2DS2VASc schemes were generated by combining CrCl and GFR with CHADS2 and CHA2DS2VASc scores [32] . Results provided evidence for the significantly better performance of GFR-based schemes-R2(GFR)CHADS2 and R2(GFR) CHA2DS2VASc-and the moderately better performance of CrCl-based schemes-R2(CrCl)CHADS2 and R2(CrCl) CHA2DS2VASc-in death risk stratification compared with CHADS2 and CHA2DS2VASc scores [32] . These findings, however, were not confirmed in a recent study by Premuzic et al. The investigators sought to determine the association of eGFR with CV mortality in AF patients after 24 months of follow-up [33] . They concluded that CV mortality was independently associated with eGFR (b = 0.169, P = 0.04), male gender (b = 0.156, P = 0.03), CHA2DS-2VASc (b = 0.467, P = 0.02) and R2CHA2DS2VASc scores (b = 0.391, P = 0.04) but not with R2CHADS2 score. In addition, R2CHA2DS2VASc was not associated with CV mortality more than CHA2DS2VASc [33] . Recent studies have also shown that CHA2DS2-VASc score can predict mortality in CKD patients. Pravda et al. investigated the association of CHA2DS2-VASc with mortality and major adverse CV outcomes in patients with ESRD on chronic hemodialysis [34] . A higher CHA2DS2-VASc score was associated with an increased risk for the composite endpoint of all-cause mortality, myocardial infarction, and stroke within the first year of hemodialysis in the low (CHA2DS2-VASc 0-3), intermediate (CHA2DS2-VASc 4-5) and high (CHA2DS2-VASc ≥ 6) CHA2DS2-VASc groups, respectively (P < 0.01). A multivariate analysis using the CHA2DS2-VASc score group of 0-3 as the reference group yielded adjusted ORs for the composite endpoint at 1 year that increased as the CHA2DS2-VASc score was higher (OR = 2.6 95% CI 1.6-4.2 and OR = 4.2, 95% CI 3.3-7.5 for patients with the CHA2DS2-VASc score of 4-5 and ≥ 6, respectively, P < 0.01) [34] . CHA2DS2-VASc score was also used as a continuous variable to assess the risk, and was shown that CHA2DS2-VASc score is associated with a 38% increased risk for the composite endpoint [34] . Hsu et al. evaluated the usefulness of CHADS2 and CHA2DS2-VASc scores for the prediction of CV and allcause mortality in CKD [35] . Age, male gender, hypertension, heart failure and CHA2DS2-VASc score (HR 1.600; 95% CI 1.254-2.040; P < 0.001) were proven to be significant predictors of CV mortality. Similarly, age, male gender, heart failure, CHA2DS2-VASc score (HR 1.503; 95% CI 1.300-1.739; P < 0.001) and angiotensin II receptor blockers use were significant predictors of all-cause mortality. Higher stage of CKD was also associated with increased all-cause mortality in CKD [35] . Recently, Vodošek Hojs et al. performed a prospective study in non-dialysis CKD patients and assessed the role of CHA2DS2-VASc score in predicting CV and all-cause mortality in CKD. Kaplan-Meier survival analysis showed that CV (P = 0.001) and allcause (P = 0.001) mortality were higher in patients with CHA2DS2-VASc score > 2. CHA2DS2-VASc score was an independent predictor of CV (HR: 2.04, CI 1.20-3.45, P = 0.008) and all-cause mortality (HR: 2.06, CI 1.43-2.97, P = 0.001) [36] . The summarized studies investigating the ability of CHA2DS2-VASc score to predict CV and all-cause mortality in CKD are listed in Table 1 . CHA2DS2-VASc score has been widely used to evaluate the risk of stroke in AF patients [37] , but has been shown to predict CV and all-cause mortality in CKD patients as well. Indeed, higher CHA2DS2-VASc scores have been associated with increased mortality. These findings are of particular importance because CKD is very common in clinical practice and utilization of CHA2DS2-VASc score may help physicians to identify high-risk groups in this setting. 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