Prognostic value of central blood pressure on the outcomes of embolic stroke of undetermined source

We investigated the prognostic impact of central blood pressure (BP) on outcomes in patients with embolic stroke of undetermined source (ESUS). The prognostic value of central BP according to ESUS subtype was also evaluated. We recruited patients with ESUS and data on their central BP parameters (central systolic BP [SBP], central diastolic BP [DBP], central pulse pressure [PP], augmentation pressure [AP], and augmentation index [AIx]) during admission. ESUS subtype classification was arteriogenic embolism, minor cardioembolism, two or more causes, and no cause. Major adverse cardiovascular event (MACE) was defined as recurrent stroke, acute coronary syndrome, hospitalization for heart failure, or death. Over a median of 45.8 months, 746 patients with ESUS were enrolled and followed up. Patients had a mean age of 62.8 years, and 62.2% were male. Multivariable Cox regression analysis showed that central SBP and PP were associated with MACE. All-cause mortality was independently associated with AIx. In patients with no cause ESUS, central SBP and PP, AP, and AIx were independently associated with MACE. AP and AIx were independently associated with all-cause mortality (all p < 0.05). We demonstrated that central BP can predict poor long-term prognosis in patients with ESUS, especially those with the no cause ESUS subtype.

Follow-up and outcomes. Patient follow-up was conducted at 3 months after discharge and annually via an outpatient clinic or structured telephone interview. The occurrence of a major adverse cardiovascular event (MACE) was the primary outcome and was defined as any occurrence of recurrent stroke, acute coronary syndrome, hospitalization for heart failure, or death. The secondary outcomes were recurrent stroke and all-cause mortality. Recurrent stroke was determined as a new neurologic deficit with relevant lesions on brain imaging 7 days after an index stroke or discharge. In addition, the date and cause of death were collected from the Korean National Statistical Office, which were determined based on the identification numbers of the death certificates. The censoring date was December 31, 2019. If the last visit occurred before that date, the last visit date was replaced with the censoring date 14 . Statistical analysis. Statistical analysis was performed using SPSS (version 26, IBM, Chicago, IL, USA) and R version 4.3.0 (http:// www.r-proje ct. org). Significant intergroup differences were analyzed by one-way ANOVA or the Kruskal-Wallis test for continuous variables and chi-square test or Fisher's exact test for categorical variables. Data were presented as mean ± standard deviation or median (interquartile range) for continuous variables and number (%) for categorical variables. The cutoff values for central SBP, DBP, and PP were set at ≥ 130 mmHg, ≥ 90 mmHg, and > 50 mmHg, respectively, based on previous studies 18,19 . Because no cutoff values for AP and AIx have been previously reported, the cutoff values for AP and AIx were set at > 13 mmHg and > 25%, respectively, based on the median value. Survival curves were plotted using the Kaplan-Meier method and compared using the log-rank test. Multivariable Cox proportional hazard regression analysis was performed after adjusting for baseline characteristics (age, sex, and NIHSS score), ESUS subtype, and variables with p < 0.05 in univariable analysis. Each multivariable Cox regression analysis was also conducted according to the ESUS subtype. Restricted cubic spline curves were plotted to visualize the impact of central BP on prognosis. Two-tailed p values < 0.05 were considered statistically significant.

Ethical approval. The Institutional Review Board of Severance Hospital of the Yonsei University Health
System approved this study and waived the need for informed consent because of the retrospective design and observational nature of the study (Approval Number: 4-2021-1724). The study was conducted ethically in accordance with the World Medical Association Declaration of Helsinki.

Results
Demographic characteristics. A total of 4,298 patients were registered during study period, we excluded those with stroke subtypes other than ESUS, including large artery atherosclerosis (n = 666), cardioembolism (n = 981), small vessel occlusion (n = 366), stroke of other etiology (n = 156), stroke with two or more causes  (Fig. 1). The patients had a mean age of 62.8 ± 13.1 years and a median NIHSS score of 2.0 (interquartile range, 1.0-4.0), and 464 (62.2%) were male. In terms of ESUS subtype, patients with arteriogenic embolism were the oldest, had the highest hypertension and diabetes rates, and had the highest central PP. Patients with two or more causes had the highest coronary artery disease rates. Conversely, patients with minor cardioembolism were the youngest and had the lowest central PP and AP. Patients with no cause had the lowest rates of hypertension, diabetes, and coronary artery disease but had the highest AP (all p values < 0.05) ( Table 1).
The impact of central BP parameters on the risk of the primary outcome is visualized in Fig. 3. Restricted cubic spline analysis for the HR of central BP showed that the adjusted risk for MACE increased with higher central BP parameters above the cutoff value.

Discussion
We demonstrated that central BP parameters independently predicted poor long-term outcomes in patients with ESUS. Central SBP and PP were particularly associated with MACE and recurrent stroke, whereas AIx was linked to all-cause mortality. Interestingly, among the ESUS subtypes, patients with no cause ESUS showed a strong association between central BP and outcomes. Therefore, our study suggests that central BP is a useful prognostic marker for patients with ESUS, especially those with the no cause subtype.  www.nature.com/scientificreports/ Central BP is easily and noninvasively derived from radial artery waveform. Applanation tonometry is commonly used to detect radial artery waveform because of its simplicity and good tolerability. This tonometry utilizes a transfer function to calculate the aortic pressure waveform from the radial artery. The aortic pressure waveform can yield central BP parameters that reflect both arterial stiffness and wave reflection 20 .
Blood vessels lose flexibility and become stiffer with age, which impedes heart function. This is known as arterial stiffness. Arterial stiffness results from aging and arteriosclerosis. Inflammation also plays a major role in arteriosclerosis development and is consequently a major contributor to large artery stiffening 21 . Arterial stiffness is a well-established intermediate endpoint for cardiovascular outcome because it increases the risk of cardiovascular events, such as myocardial infarction, hypertension, heart failure, and stroke 22 . Our previous study also showed that increased stiffness predicted poor long-term prognosis in patients with cryptogenic stroke 23 . In stiff arteries, the reflected wave arrives back at the central arteries earlier and amplifies the forward wave, thereby augmenting the systolic pressure. A premature return of reflected waves in late systole increases the left ventricular load and myocardial oxygen demand, resulting in left ventricular hypertrophy 24 . Thus, both wave reflection and aortic stiffness are closely related to unfavorable outcomes [25][26][27] .
Previous studies have proven that central SBP and PP are significantly associated with an increased risk of subclinical cerebrovascular disease and future stroke 10,28 . An increased AIx was also associated with in-hospital outcomes, such as longer length of stay and lower Barthel index score in patients with ischemic stroke 29 . Similarly, prospective studies revealed that an increased AIx was an independent predictor of poor functional outcome after acute ischemic stroke 12,13 . In line with these reports, we found that central BP parameters were independently associated with poor long-term outcomes in patients with ESUS.
Poor long-term outcome may result from worsened aortic stiffness and wave reflection, which can be measured by central BP. We hypothesize possible mechanisms like below. First, increased central BP influences arterial remodeling in both the extracranial and intracranial arteries, which may result in increased carotid wall thickness 30 , the development of stenosis and plaques 31 , and the likelihood of plaque rupture 32 . Second, blood flow impedance in the cerebral artery is lower than that in other systemic arteries. Aortic stiffness can facilitate the transmission of pulsatile pressure into the cerebral microcirculation 33 . Furthermore, torrential flow and highpressure fluctuations in the carotid and vertebral arteries can induce cerebrovascular damage 11 . Third, aortic stiffness and wave reflection are associated with poor left ventricular conditions, which may increase the risk of poor outcomes 34 . Fourth, aortic stiffness is linked to atherosclerosis because both share several risk factors, including hypertension 35 . The current study showed that hypertension was common in 72.5% of patients. Thus, atherosclerosis may contribute to a poor prognosis in ESUS in patients with high central BP. www.nature.com/scientificreports/ A previous meta-analysis showed that central SBP and PP and AIx were significantly predictive of MACE, whereas all-cause mortality was associated only with AIx 36 . Similarly, we found that central SBP and PP were associated with MACE and stroke recurrence, whereas AIx was associated with all-cause mortality. The underlying cause for this is unclear, but it may arise from the fact that AIx values were negative in 18 (2.4%) patients in our cohort. Wave intensity analysis indicates that negative AIx is principally due to a forward travelling (re-reflected) decompression wave in mid-systole and should not be used as an estimate of wave reflection magnitude 37 . This loophole may attenuate the prognostic effect of AIx for MACE, including stroke recurrence. Additionally, ESUS patients with high central SBP or PP had higher levels of vascular risk factors including total cholesterol, triglyceride, and body mass index than those with high AIx (Supplementary Table 2). These factors may cause differences in the prognostic impact among central BP parameters. However, given the conflicting and limited data regarding the association between central BP and outcomes in ESUS patients, more studies are needed to define the predictive value of central BP in the population with ESUS.
Central BP parameters showed strong prognostic values for poor outcomes in no cause ESUS. This is an unexpected finding because no cause ESUS usually involves a hidden embolic source, such as atrial fibrillation. Conversely, central BP is a parameter of arterial stiffness and wave reflection. Our results suggest several potential reasons for this. First, patients with no cause ESUS had the highest AP among the subtypes. Previous studies have reported that increased arterial stiffness and wave reflection are related to newly developed atrial fibrillation 38 . Given the high AP, hidden atrial fibrillation may be involved in poor prognosis in no cause ESUS. In addition, AP more sensitively reflects ventricular ejection functions than other central BP parameters 39 , and thus high AP may precipitate the risk of recurrent stroke due to left ventricular dysfunction 40 . Second, patients with other ESUS subtypes were older and had higher rates of hypertension, diabetes, and coronary artery disease than those with no cause ESUS. These risk factors are well-known prognostic markers after stroke. Although we adjusted for these factors in the multivariable analysis, risk factors may increase the likelihood of poor outcomes in other ESUS subtypes than no cause ESUS and mitigate the effect size of central BP parameters on clinical outcomes 41 .
Our study has noteworthy strengths. We enrolled patients with comprehensive work-ups, including TEE and prolonged electrocardiography monitoring. All patients underwent TEE and transthoracic echocardiography was performed in 93.2% of patients. Prolonged heart rhythm evaluation was also performed in 93.6% of patients (Supplementary Table 3). ESUS working group investigators recommended a comprehensive stroke work-up, but they did not consider TEE and long-term electrocardiography monitoring as mandatory investigations 42 . TEE examination can uncover abnormal findings in more than half of cases, and such abnormalities significantly Table 3. Multivariable Cox regression analysis of long-term outcomes according to the characteristics of ESUS subtype. *Adjusted for age, sex, NIHSS score at admission, patent foramen ovale, hypertension, diabetes mellitus, coronary artery disease, and anticoagulant. AIx augmentation index, AP augmentation pressure, CI confidence interval, DBP diastolic blood pressure, HR hazard ratio, MACE major adverse cardiovascular event, NIHSS National Institutes of Health Stroke Scale, PP pulse pressure, SBP systolic blood pressure.  43 . Another strength is that we measured central BP using a device readily available in clinical practice. Measuring central BP is simple, non-invasive, and chief. Based on our finding on the prognostic value of central BP in ESUS, the central BP measurement may be recommended for identifying high-risk patients without an obvious etiology. This study has several limitations. First, although we included consecutive patients with ESUS, the mandatory inclusion criteria may have excluded some patients with ESUS who did not undergo central BP measurement and TEE. Second, central BP may be affected by the type and dosage of antihypertensive medication 26 . We did not analyze these factors because too many types of antihypertensive drugs were used. Third, we only assessed patients of a single ethnicity and from a single center. Further prospective validation studies involving other ethnicities and larger cohorts are required. Despite these limitations, our study firstly reported the association between central BP and long-term prognosis of ESUS patients.

Conclusions
We found that central BP parameters in patients with ESUS were independently associated with unfavorable outcomes, including MACE, stroke recurrence, and mortality. The prognostic impact of these parameters was most evident in patients with no cause ESUS. Therefore, we propose that central BP measurement may be used as an important diagnostic and prognostic factor for patients with ESUS, especially those with no apparent embolic cause.

Data availability
The study data are available from the corresponding author upon reasonable request and with the permission of all contributing authors.