Atrial fibrillation is not uncommon among patients with ischemic stroke and transient ischemic stroke in China

Background Atrial fibrillation (AF) is reported to be a less frequent cause of ischemic stroke in China than in Europe and North America, but it is not clear whether this is due to underestimation. Our aim was to define the true frequency of AF-associated stroke, to determine the yield of 6-day Holter ECG to detect AF in Chinese stroke patients, and to elucidate predictors of newly detected AF. Methods Patients with acute ischemic stroke or transient ischemic attack (TIA) were enrolled in a prospective, multicenter cohort study of 6-day Holter monitoring within 7 days after stroke onset at 20 sites in China between 2013 and 2015. Independent predictors of newly-detected AF were determined by multivariate analysis. Results Among 1511 patients with ischemic stroke and TIA (mean age 63 years, 33.1% women), 305 (20.2%) had either previously known (196, 13.0%) or AF newly-detected by electrocardiography (53, 3.5%) or by 6-day Holter monitoring (56/1262, 4.4%). A history of heart failure (OR = 4.70, 95%CI, 1.64–13.5), advanced age (OR = 1.06, 95%CI, 1.04–1.09), NIHSS at admission (OR = 1.06, 95%CI, 1.02–1.10), blood high density lipoprotein (HDL) (OR = 1.52, 95%CI, 1.09–2.13), together with blood triglycerides (OR = 0.64, 95%CI, 0.45–0.91) were independently associated with newly-detected AF. Conclusions Contrary to previous reports, AF-associated stroke is frequent (20%) in China if systemically sought. Prolonged noninvasive cardiac rhythm monitoring importantly increases AF detection in patients with recent ischemic stroke and TIA in China. Advanced age, history of heart failure, and higher admission NIHSS and higher level of HDL were independent indicators of newly-detected AF. Trial registration NCT02156765 (June 5, 2014).


Background
The fraction of strokes associated with atrial fibrillation has been reported to be lower in China than in European and North American stroke populations [1][2][3], but it is not clear whether this is due to its underdetection and hence leading to suboptimal secondary prevention. Recent studies have demonstrated that prolonged (> 24 h) of cardiac rhythm monitoring importantly increases detection of paroxysmal atrial fibrillation in post-stroke patients [4][5][6], but this has not previously been assessed in Chinese stroke patients, who are on average relatively young. We sought to determine the true frequency of AF-associated stroke and yield of prolonged cardiac rhythm monitoring to detect paroxysmal AF in Chinese patients with recent ischemic stroke and TIA.

Subjects
From October 2013 to June 2015, we recruited consecutive patients within 7 days of the index event of ischemic stroke or TIA from 20 Chinese hospitals. Clinical TIAs with an acute ischemic lesion visualized on computerized tomography (CT) or magnetic resonance imaging (MRI) were classified as strokes. The exclusionary criteria were 1) age < 18 years; 2) patients who were unable or unwilling to give informed consent; and 3)patients who were found not to have a stroke or TIA (stroke mimics). The study complied with the Declaration of Helsinki, and protocol was approved by the institutional review board (IRB) of Beijing Tiantan Hospital, Capital Medical University. All patients or their legal representatives provided written informed consent.

Data collection
Clinical data included demographic information, stroke risk factors, detailed medical history and treatments. Stroke severity was assessed using the National Institutes of Health Stroke Scale (NIHSS) [7] assessed by physicians. Patients received routine stroke care according to his/her condition including CT or MRI, 12-channel surface electrocardiography (ECG), transthoracic echocardiography, ultrasound of the cervical arteries, and routine blood analysis including, for example, lipid profile, blood glucose, liver enzymes and creatinine. Previously known AF was diagnosed according to the medical history reported by the patients and the prior medical records of the patients in our study.

Holter monitoring
The 6-day Holter monitoring initiated within 7 days after the index event using a commercially available 3-lead monitor device (iHolter, Yocaly Information Science & Technology Co., Ltd. Jinan, Shandong, China). It is an autotriggered device that uses an event detection algorithm to capture asymptomatic paroxysmal events, including paroxysmal AF. The event detection algorithm uses RR interval variability and QRS morphology analysis to detect all possible AF events that are then transmitted to a central core laboratory for manual review and confirmation based on standard diagnostic criteria (absence of p wave activity and irregular RR interval). ECG recordings were analyzed in a central core laboratory by two investigators who were independent of our study team and who were unaware of clinical and neuroimaging results using dedicated analysis software (DoctorClient, Software Version 1.5.0.16). All Holter ECG recordings with suspected AF were subsequently evaluated by another independent observer. Bursts of AF on ECG were reported by the number of beats of each occurrence. The first time and longest duration of bursts of AF for each patient were also recorded. The device defined AF as ≥ 1 period of > 30 s duration of an absolute arrhythmia without detectable P-waves and episodes < 30 s require manual review of all possible AF events [8,9]. Atrial flutter and AF were not discriminated as both arrhythmias carry a similar stroke risk and often coincide [10].

Statistical analyses
Continuous data are given as median, range and categorical variables are given as absolute number and percentage. Mann-Whitney U test (continuous variables) and Pearson χ2 tests (categorical variables) were used to compare groups. Significance was assumed when the 2sided probability value was <0.05. A multivariate analysis was performed using logistic regression, all factors that associated with detected AF in univariate analysis were included (P< 0.05). For calculation of 95% confidence interval (CI), binominal distribution was assumed. Statistical analysis was performed using SAS version 9.2 (SAS Institute Inc., Cary, NC).

Patient population
During the study period, 1556 patients with stroke or TIA were admitted to the participating stroke units. Because of artifacts, interruptions for clinical procedures, and early detachment of the monitoring leads by patients, 1511 patients (1441 with ischemic stroke and 70with TIA) were included (Fig. 1). The mean age of the study cohort was 63 years, and 33.1% were women.
In multivariable analysis (

Discussion
Contrary to previous reports, AF-associated brain ischemia is frequent (20.2%) in China. Identification of AF after ischemic stroke or TIA is crucial to optimize appropriate anticoagulation. This is the first study to demonstrate the yield of prolonged cardiac rhythm monitoring after ischemic stroke and TIA in Chinese patients with recent brain ischemia. This prospective multicenter study provides solid evidence that AF is considerably more common in patients with ischemic stroke and TIA than what has been reported in most previous population-based studies in China [2,3,11]. The underlying reasons are likely the increased duration of cardiac rhythm monitoring in comparison to prior studies and AF detection based upon a standardized automated arrhythmia detection algorithm and continuous review of monitoring data. However, when compared with the studies in western countries [12,13], the overall detection rate of AF among stroke and TIA is still lower. In our study the detection rate of any new AF among patients without previously known AF were respectively 5.2% and 6.9% in the first 24 h and during the whole monitoring period while the rate were 6.2% and 14.1% in a recent review [14]. The discrepancy might be because the patients in our study are, on average younger (mean age, 63.0 years)  than in studies reporting higher frequencies AF in which the mean ages was 68.4 years. When compared with studies with the similar monitoring duration, Stahrenberg et al. [12]and Jabaudon et al. [15] have reported higher detection rates of new AF using 7-day continuous Holter monitoring and 7-day event-loop recording (ELR) device (12.5% and 14.8% respectively). The early time point of monitoring after symptom onset (9.5 h) and relatively older patients in their studies may be the explanation for the difference.
In our study, we found that patients with history of previous coronary heart disease have a higher likelihood of AF which is consistent with previous study [16]. We suppose that the explanation might be that coronary heart disease shares similar risk factors such as aging and systemic vascular risk factors with AF which may cause an abnormal atrial tissue substrate or atrial cardiopathy, that can result in AF.
We also found that current smoker was less likely to have AF in our study which is in accordance with previous study [13]. However, this is inconsistent with recent study investigating the association between smoking and AF in community population which have shown smoking was associated with the incidence of AF [17]. We speculate that the inconsistency may lie in the different population. As we known smoking is an important and potent risk factor for atherosclerosis which may be the main reason for stroke in patients without AF, accordingly the percentage of current smoker is higher in stroke patients without AF. Prospective studies about the association between smoking and AF in stroke patients are needed in the future.
Several factors were significantly associated with an increased risk of new AF detection, namely older age, NIHSS at admission and previous heart failure and HDL. Our results are in line with previous studies in which advanced age was shown to be associated with a higher incidence of AF and paroxysmal atrial fibrillation (pAF) after stroke [16,18,19]. This argues for a structural abnormality of the atria with age which may lead to electrical instability thus causing pAF. As cardioembolic strokes are frequently larger and associated with an adverse outcome than those due to other sources [20], we also found that higher NIHSS score at admission is an independent predictor of detection of AF.
In addition, we found that patients with history of heart failure to have a higher likelihood of newly detected AF which is in accordance with previous studies [16,21]. Previous study also showed preexisting heart disease is the major cause of AF that is first diagnosed after stroke [21], so more intensified screening for AF in these patients may be essential and meaningful.
We also observed independent association between blood triglycerides/HDL and detected AF. The association between blood lipids and AF risk has been reported by several previous publications which have offered inconsistent results [22]. Lack of adjustment for important confounders and inclusion of lipid-lowering medication users may affect the finding in our study which should be explained in caution.
There are limitations to our study: firstly, patients enrolled in our study had, on average, relatively mild strokes which enabled them to complete the study protocol. As cardioembolism is likely to cause large, severe strokes, the detection rate of AF may be underestimated in our study. Secondly, because our analysis focused on the usefulness of Holter monitoring on detection of AF, detailed diagnostic workup such as transesophageal echocardiography or additional biomarkers were only completed in some patients. This limited the predictive model regarding clinical indicators that be associated with decreased risk of AF. Thirdly, some of the brief occurrences of AF may represent stroke-induced arrhythmias rather than being the cause of the stroke. However, whether pAF occurred before or after the stroke will always be difficult to clarify because prestroke monitoring is not available.

Conclusion
In conclusion, we found that AF is more common among patients with ischemic stroke and TIA in China than those previously reported. For the first time in a Chinese population, we have demonstrated that AF can be detected in an important fraction of patients with ischemic stroke and TIA via prolonged monitoring evaluation. Clinicians should plan the best available combination of post-stroke atrial fibrillation screening methods to increase yield of AF detection in the shortest possible time after stroke or TIA in order to optimize secondary antithrombotic management.