Impact of statin pretreatment on the complications of carotid stenting in asymptomatic patients: observational study

Background Carotid stenosis is a known risk factor for ischemic stroke, and carotid artery stenting is an effective preventive procedure. However, the stroke risk reduction for asymptomatic patients is small. Therefore, it is important to reduce the risk of complications, particularly in asymptomatic carotid stenosis. Statins are known to reduce the overall risk of periprocedural complications, although there is a lack of data focusing on asymptomatic patients. We aimed to investigate whether different doses of statin pretreatment can reduce periprocedural complications of carotid artery stenting (CAS) in patients with asymptomatic carotid artery stenosis. Methods Between July 2003 and June 2013, 276 consecutive patients received CAS for asymptomatic carotid stenosis. Periprocedural complications included the outcome of stroke, myocardial infarction, or death within 30 days of CAS. Statin pretreatment was categorized as no-statin (n = 87, 31.5%), standard-dose (< 40 mg, n = 139, 50.4%), and high-dose statin (≥40 mg, n = 50, 18.1%) according to the atorvastatin equivalent dose. The Cochran-Armitage (CA) trend test was performed to investigate the association of periprocedural complications with statin dose. Results The overall periprocedural complication rate was 3.3%. There was no significant difference in the risk of periprocedural complications between the three groups (no statin: n = 3 [3.4%]; standard-dose: n = 4 [2.9%]; high-dose n = 2 [4.0%] p = 0.923). The CA trend test did not demonstrate a trend in the proportion of periprocedural complications across increasing statin equivalent doses (p = 0.919). Conclusions Statin pretreatment before CAS showed neither absolute nor dose-dependent effects against periprocedural complications in asymptomatic patients undergoing CAS. Supplementary Information The online version contains supplementary material available at 10.1186/s12883-021-02104-z.


Introduction
Carotid artery atheromatous disease accounts for approximately 10-20% of ischemic strokes [1,2]. Carotid artery stenting (CAS) has grown substantially in use as an alternative definitive revascularization procedure to carotid endarterectomy (CEA) for carotid occlusive disease. In a cross-sectional analysis of US Medicare beneficiaries, the percentage of asymptomatic carotid artery stenosis among patients who underwent CAS between 1999 and 2014 was 82.5% [3]. However, the absolute risk reduction associated with CAS in patients with asymptomatic carotid artery stenosis is small [4]. Therefore, it is important to reduce periprocedural complications in asymptomatic patients with CAS.
Various treatments are available to reduce periprocedural complications [5][6][7]. In particular, statin therapy prior to CAS was associated with significant reductions in periprocedural risk [6][7][8]. In CEA, pre-statin therapy has been shown to have a protective effect only in symptomatic patients, while it was not significant in asymptomatic patients [9]. Our previous study showed that statin pretreatment reduced the incidence of periprocedural complications dose-dependently in patients who underwent CAS for symptomatic carotid artery stenosis [10]. However, this dose-effectiveness has not yet been proven in patients with asymptomatic carotid artery stenosis.
We aimed to investigate whether statin pretreatment is dose-dependently associated with a reduction of periprocedural complications in patients with asymptomatic carotid stenosis who underwent CAS.

Study subjects and data collection
This study used retrospective CAS registry data from two tertiary university hospitals collected between July 2003 and June 2013. We included patients with asymptomatic carotid stenosis, defined as ≥60% stenosis of the carotid artery [according to the North American Symptomatic Carotid Endarterectomy Trial criteria [11]] on digital subtraction angiography (DSA), in the absence of retinal or cerebral ischemia in the preceding 6 months. These criteria were benchmarked in the Carotid Revascularization Endarterectomy Versus Stenting Trial (CREST) [12].
We obtained clinical characteristics and procedurerelated factors from our CAS registry database. All patients underwent clinical assessment at baseline, 24 h after the procedure, and daily thereafter until discharge from the hospital. The statin name and dose were obtained from hospital data. According to the lipid reduction fraction, high-dose statin was defined as atorvastatin ≥40 mg/day, and standard-dose as atorvastatin < 40 mg based on the atorvastatin-equivalent dose [13,14]. This study was approved by the Institutional Review Board (IRB) of Keimyung University Dongsan Hospital. The requirement for informed consent was waived because of the retrospective nature of this study (IRB of Keimyung University Dongsan Hospital, IRB number 2017-05-042).

Stenting procedure
All patients requiring CAS were treated following the current guidelines [15]. Stents and cerebral protection devices were chosen at the discretion of the neurointerventionist. All patients received optimal medical treatment and control of vascular risk factors. Dual antiplatelet (aspirin + clopidogrel) was given routinely for at least 7 days prior to the procedure. The use of intraprocedural heparin was mandatory, with a dose of 3000 U. Dilatation after stenting was discretionary. The degree of residual stenosis at the end of the procedure was determined based on DSA.

Outcomes and definitions
Complications after CAS, such as the rates of transient ischemic attack (TIA), stroke, myocardial infarction or death, were analyzed according to pretreatment statin dose. Periprocedural complications were considered the combined outcome of any incidents of stroke, myocardial infarction, or death within 30 days of CAS. Definitions of each periprocedural complications are derived from a previous study [10].

Statistical analysis
Statistical variables are presented as medians (interquartile range, IQR) or frequencies (percentages). Comparative analyses between the no-statin, standard-dose, and high-dose statin groups were performed for vascular risk factors, imaging findings, and periprocedural complications. Groups were compared using chi-square tests for categorical variables, analysis of variance for parametric interval variables, or the Kruskal-Wallis test for nonparametric interval variables. We assigned the sample median for missing values of the lipid profile because we assumed that missing data were occurring randomly. Multivariable logistic regression models were created to assess the impact of variables contributing to periprocedural complications. Variables with p < 0.15 in the bivariate analysis were selected. In addition, the Cochran-Armitage (CA) trend test was performed to investigate the possible association of periprocedural complications with the statin dose. Statistical analyses were calculated using R statistical software (R, version 3.6.2; R project).
The groups according to statin dose did not differ significantly in age. In procedure-related characteristics, such as pre-stenting dilatation and post-stent dilatation, there was no difference between the three groups.
Although the degree of stenosis was similar between the three groups (p = 0.207), residual stenosis was significantly higher in the high-dose statin group compared to other groups (p = 0.003). In terms of lipid profile, there were no significant differences between groups in highdensity lipoproteins. However, the high-dose statin group had lower low-density lipoproteins (LDL) and total cholesterol than other groups. A summary of statin drugs and doses used is shown in Additional file 1: Supplementary Table I.

Discussion
In our study, the CAS 30-day periprocedural complication rate was 3.3% (9 of 276), which is consistent with previous studies on asymptomatic carotid artery stenosis [4,12]. The overall periprocedural complications were not different between the three groups according to the pretreatment statin dose, and showed no linear trend of association to the statin dose. In addition, when the analysis was conducted comparing use to no-use of statin before CAS, there was no difference in the results. Statins are considered an option for preventing periprocedural complications. Pretreatment statin use has been shown by previous studies to significantly decrease the frequency of cardiovascular, cerebrovascular, and secondary stroke events after vascular procedures or endarterectomy [9,[16][17][18][19][20][21][22]. This might be due to the multiple effects of statin, such as plaque stabilization and reduction of intravascular thrombosis. Preventive effects of statins are supported by findings of its use being associated with reduced plaque volume and atheroma regression in the carotid circulation, [23] in addition to less embolic debris during CAS [24]. However, all of these studies included both symptomatic and asymptomatic patients [25]. There is no study about the pretreatment statin effects on periprocedural complications of CAS limited to asymptomatic patients. In contrast to studies with symptomatic carotid artery stenosis, our study demonstrated no significant dose-dependent or absolute statin effects in preventing periprocedural complications in asymptomatic patients with carotid artery stenosis. There is a possible explanation for this finding. A previous study suggests that infiltration of the fibrous cap with foam cells, fibrous cap thinning, and plaque rupture are more common in patients with symptomatic carotid artery stenosis than in asymptomatic patients [26]. Similar to acute coronary syndromes, plaque ruptures are an important etiopathogenetic factor of neurological deterioration as a result of carotid artery stenosis. During stent deployment, embolism from the carotid artery plaque is generally responsible for the majority of new ischemic lesions. Based on this study, the multiple pleiotropic effects of statins did not alter the risk of periprocedural complications in asymptomatic patients with carotid artery stenosis because the plaques are generally more stable. Nonetheless, caution is advised in the interpretation of our results, which showed that there is no protective effect of statin, limited to the periprocedural period. Statins are known to have protective effects on long-term outcome [6,27].
In this study, we observed an LDL-lowering effect of statins. However, statins have multiple pleiotropic effects, such as promoting endothelial function, reducing inflammation, affecting arterial myocyte proliferation, migration and apoptosis, as well as regulating platelet activity, plaque stability, and the coagulation process. Therefore, LDL is not the only concern when contemplating successful risk reduction [28,29]. As previous studies suggest, statin treatment should be administered in accordance with the global vascular risk factors and  [30,31]. Consistently, our results indicated that LDL levels alone did not correlate with the risk of periprocedural complications. Our study has several limitations. First, this was a retrospective study with a relatively small sample, which did not allow us to extract statistically significantly results in the analysis of periprocedural complications (9 cases). Second, there was a lack of data on pretreatment duration. Thus, it was not possible to evaluate where this parameter was associated with periprocedural complications. Third, we lacked information on the type of stents used. Previous studies have shown a higher risk of periprocedural stroke in patients treated with open-cell stent devices compared to those implanted with closed-cell devices [32,33]. Fourth, we cannot be certain that there were no differences in the original plaque morphology or vascular anatomy of the groups considered, which might have differentially influenced the risk of periprocedural complications. Therefore, our results should be verified in randomized trials or prospective trials with larger datasets.
In conclusion, this study shows that statin pretreatment did not have dose-dependent or absolute effects on periprocedural complications risk in patients undergoing CAS for the treatment of asymptomatic carotid artery stenosis.