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Neurointervention > Volume 13(2); 2018 > Article
Seo and Suh: Endovascular Treatment in Acute Ischemic Stroke: A Nationwide Survey in Korea

Abstract

Purpose

As endovascular therapy (EVT) has been approved as a treatment guideline for acute ischemic stroke (AIS), it has been increasing in Korea. We conducted a nationwide survey to evaluate the current status of EVT for patients with AIS in Korea.

Materials and Methods

An electronic survey was sent to a representative clinician at each hospital where EVT was available in Korea. A Google survey was used to distribute the questionnaires and receive responses from October 2017 to December 2017.

Results

Among 120 hospitals in our society, 76 participated in this survey. In 26% of the hospitals, more than 50 annual cases of EVT were performed, and 25–50 annual cases in 37%. Fifty-six hospitals (73.7%) achieved successful recanalization (thrombolysis in cerebral infarction ≥2b) in more than 80% of patients. Computed tomography (CT) angiography was the most common imaging modality for AIS treatment, and magnetic resonance (MR) diffusion, MR-perfusion/diffusion, and perfusion CT were frequently used in order. Non-eligibility criteria for EVT included a National Institutes of Health Stroke Scale <4 (64.5%), the absence of MR perfusion/diffusion mismatch (52.6%), and a low Alberta Stroke Program Early CT Score (42.1%). For anterior circulation stroke, 60% of Korean hospitals adopted a wider time range of “8 hours” from symptom onset, while 70% of hospitals had a time limitation of 12–24 hours for posterior circulation stroke. The most preferred EVT device was a stentriever (89.4%). In the failed cases due to underlying stenosis, 79% of Korean hospitals performed angioplasty or stenting for revascularization.

Conclusion

This first nationwide survey showed that most Korean hospitals conducted EVT for AIS patients according to the present guideline in the era of mechanical thrombectomy by integrating the clinical experiences of many medical institutions and specialists.

INTRODUCTION

In Korea, ischemic or hemorrhagic strokes are the third leading cause of death and the most frequent cause of disability [1,2]. Since approval of tissue plasminogen activator (tPA) as the sole drug for treating acute ischemic strokes (AIS), some studies using intra-arterial thrombolytic therapy have been conducted but have failed to prove their efficacy [3-6]. With the advance of technologies and devices, several randomized controlled trials of endovascular treatment (EVT) for AIS have been conducted with successful results since 2015 [7-12]. Based on these results, EVT for AIS patients has been recommended strongly as level of evidence A [13] and the Korean treatment guidelines for AIS were also revised in 2016 [14].
Since the introduction of neurointerventional procedures in 1994, neuroradiologists were initially involved with AIS treatment in Korea. During the past 4 years, the number of AIS patients treated with EVT has grown annually by an average of 36%, and the specialized institutions for treatment of AIS and the number of specialists, including neuroradiologists, neurosurgeons, and neurologists, have also increased rapidly in Korea [15]. With this nationwide survey, we tried to evaluate the present status of hospitals and clinicians related to AIS treatment in Korea, focusing on preoperative imaging diagnosis, patient selection, endovascular methods, and follow-up imaging.

MATERIALS AND METHODS

An electronic survey was sent to a representative clinician at each hospital where EVT was available in South Korea. The survey questionnaire was written in Korean and consisted of 40 single- or multiple-choice questions about general information of each hospital, preprocedural imaging evaluation, patient selection criteria, endovascular procedures, and follow-up imaging (Supplementary material). A Google Survey was used to distribute the survey questionnaires and receive responses. This survey was carried out from October to December 2017.
Questionnaire answers were evaluated with standard descriptive statistics (Microsoft Excel, Redmond, WA, USA). SPSS ver. 20.0 (SPSS Inc., Chicago, IL, USA) was used for statistical analysis. To examine the difference in the number of responses, chi-square was used for categorical variables.

RESULTS

Among 120 hospitals registered in our society, 76 participated in this survey, including 39 tertiary hospitals and 37 non-tertiary hospitals (primary and secondary hospitals).

General information

In 26% of these hospitals (20/76), more than 50 annual cases of mechanical thrombectomy (MT) were performed, and 25–50 annual cases in 37% (28/76). The number of tertiary hospitals that had performed more than 50 mechanical thrombectomies (MT) was 41% (16/39), whereas only 11% (4/37) of the non-tertiary hospitals had performed more than 50 MTs (P<0.001) (Fig. 1). In 2016, 93% of hospitals (71/76) achieved successful recanalization (thrombolysis in cerebral infarction [TICI] 2b/3) with MT in more than 70% of AIS patients; 22% (17/76) of hospitals had recanalized successfully more than 90% of patients and 51% (39/76) of hospitals had done so in 80-90% of patients (Fig. 2).
In participating hospitals, the distribution of clinical specialty for clinicians involved in the neurointerventional procedures was neurosurgery (54%), radiology (30%), and neurology (16%). More than two clinicians managed patients with AIS in 82% of the procedures, and 91% of the hospitals ran at all hours with on-call night duty. The proportion of involvement of three or more staff in EVT was 58.8% in tertiary hospitals and 29.7% in non-tertiary hospitals (P=0.012).
Thirty-eight percent (29/76) of the hospitals had a fellowship training program for EVT, in which neurosurgeons (49%), neurologists (28%), and radiologists (23%) were enrolled. Especially, the fellowship program existed in 24 tertiary hospitals. There was an inter-department consultation system in 93% of the responding hospitals.
Specialized stroke units operated in 82% of hospitals. More than 90% of hospitals ran biplane digital subtraction angiography, computed tomography (CT) and magnetic resonance imaging (MRI).

Imaging modalities and patient selection

CT angiography (CTA) was the most common imaging modality (32%) for AIS treatment, and MR-diffusion weighted imaging (DWI, 18%), MR-perfusion weighted imaging (PWI/DWI, 18%), and perfusion CT (13%) were frequently used in that order. In case of unknown stroke onset, CTA (60%) was the first imaging option and MR-DWI (37%), non-contrast CT (32%), and MR-DWI/PWI (26%) were chosen sequentially for diagnosis.
For anterior circulation stroke, 59% of respondents could perform EVT until 8 hours from onset of symptoms, and 25% did within 6 hours (Fig. 3). EVT could be treated until 12 hours from symptom onset in 10.5% of hospitals. For posterior circulation stroke, EVT could be performed within 8 hours from onset in 27.6%, 12 hours in 36.8%, and 24 hours in 31.6% of hospitals, respectively. In order to determine EVT for posterior circulation stroke, MR-DWI/PWI (12%), CTA (10%) and MRDWI (7%) were frequently used in that order.
For the question regarding the non-eligibility for EVT, low National Institutes of Health Stroke Scale (NIHSS; <4), no DWI-PWI mismatch, anatomical locations, and low Alberta Stroke Program Early CT Score (ASPECTS) were listed in that order (Table 1). For patients who were 90 years of age or older, there were some differences for treatment decisions according to the responding hospitals, for which only 15.4% of the tertiary hospitals did not perform MT for them; whereas 48.6% of the non-tertiary hospitals reported not performing MT. Furthermore, 10.3% of tertiary and 5.4% of non-tertiary hospitals responded that they could treat patients under any circumstances.
In patients with mild stroke symptoms (NIHSS <4), non-tertiary hospitals tended to treat more aggressively than tertiary hospitals; while only 15% of the latter treated distal middle cerebral artery (MCA) or anterior cerebral artery (ACA) occlusion, 32% of the former would perform EVT for the same occlusion (P<0.002). However, there was a similar response between tertiary and non-tertiary hospitals in case of basilar artery occlusion.

Anesthetic consideration

During EVT for AIS patients, conscious sedation was performed frequently in 56% (41/73) of hospitals, local anesthesia in 33% (24/73), and general anesthesia was occasionally performed in 11% (8/73, 3 in tertiary and 5 in non-tertiary hospitals).

Endovascular treatment procedure

In total, 80% of the hospitals performed intravenous tPA followed by MT immediately, and the amount of tPA used was a full dose (0.9 mg/kg) in 78%. For MT, a stentriever was frequently selected as the preferred device in 89% and an aspiration device in 11% of procedures. As a first-line device, Solitaire was chosen in 68%, Trevo in 18%, Penumbra in 12%, and ERIC in 1%. For the second-line option, Penumbra was the highest in 42%, Trevo in 28%, Solitaire in 25%, ERIC in 4%, and Revive SE in 1% (Table 2). The number of passes by a stentriever was 3 to 5 in 64% and more than 5 in 36%.
The proportion of hospitals that used balloon-guiding catheters for more than 60% of their procedures was 42%, and 18% of hospitals never used balloon-guiding catheters (BGC). The proportion of hospitals that used intermediate catheters for more than 60% of procedures was 42%, and 16% of hospitals did not use intermediate catheters. 63% of hospitals could use both catheters together in EVT for AIS patients.
In the case of tandem occlusion, revascularization of the proximal lesion first followed by distal recanalization was preferred in 70% of hospitals. When intracranial artery occlusion with underlying stenosis occurred, angioplasty and stenting was performed in 51% of hospitals and only angioplasty in 28%. Only intra-arterial or intravenous injection of tirofiban was administered in 18% of hospitals and bypass surgery was in 3%. Finally, 61% of hospitals answered that intraarterial injection of urokinase or tirofiban was used in <10% of procedures.

Follow-up imaging

In 69.7% of hospitals, follow-up imaging was taken within 24–48 hours after the procedure (Table 3). The proportion at which the follow-up imaging study was performed immediately or 7 days after EVT was 12% and 13%, respectively. In order to confirm the final infarction volume, the preferred imaging study was either only MRI (49%) or CT plus MRI (42%).

DISCUSSION

After reporting Korean neurointerventional activities in 2013 [16], this study is the initial investigation into the current status of EVT in the era of MT for AIS. We found most Korean hospitals had an excellent environment for AIS patients. They have a lot of medical equipment, ranking fifth in the number of MRIs and sixth in the number of CTs among developed countries, and have high medical accessibility due to the National Medical Insurance scheme for all citizens [17]. Regarding the human resource for AIS treatment, radiologists, neurosurgeons, and neurologists have been responsible for AIS treatment in most Korean hospitals. Recently, 62% of tertiary hospitals have operated a fellowship program for training specialized experts.
According to the hospitals, there was a significant difference in the number of cerebral angiography and AIS patients who underwent MT, which may be explained by the following facts: 1) Among 43 tertiary hospitals, 11 hospitals were designated as Regional Cardio-Cerebrovascular Disease Centers by the government as well as large-scale emergency centers, where a large portion of AIS patients may be transferred by an ambulance; and 2) Most Korean hospitals are open at all hours for on-call AIS management, as found in this survey. However, non-tertiary hospitals had some difficulties managing AIS patients on-call at all hours due to a lack of medical staff and specialists who could perform MT.
In the guidelines [18], treatment for AIS patients using MT can be initiated within 6 hours after the onset of symptoms and in selected patients with AIS within 6 to 24 hours who have large vessel occlusion in the anterior circulation. In this study, it is interesting that 60% of Korean hospitals adopted the wider time range of “8 hours” from symptom onset for anterior circulation stroke, and 70% of hospitals tried to treat posterior circulation stroke within 12–24 hours from onset. CTA was primarily applied for preoperative diagnosis and treatment decision of AIS patients at most of Korean hospitals, while MRI was the first imaging tool used for posterior circulation stroke.
The current guidelines [18] show that patients should receive MT with a stent retriever if they meet all the following criteria: 1) a prestroke modified Rankin Score (mRS) of 0 to 1; 2) causative occlusion of the internal carotid artery or MCA segment 1 (M1); 3) age ≥18 years; 4) NIHSS score of ≥6; 5) ASPECTS of ≥6; and 6) treatment initiated (groin puncture) within 6 hours of symptom onset. In this survey, some Korean hospitals adapted aggressive criteria for AIS treatment, including a low NIHSS (<4), low ASPECTS (<5) and distal MCA or ACA occlusion, which may be considered for treatment as class IIb recommendation in some circumstances.
In Korea, the stentriever was the most preferred treatment device, while an aspiration device was chosen as a second option. Although a BGC or intermediate catheter was used frequently in AIS procedures, a BGC was not used yet in 18% of Korean hospitals. In a recent publication [19], a BGC has been known to not only have a high success rate of recanalization but also reduce the occurrence of distal emboli and operation time, and it is expected that use of a BGC will increase further.
For failed cases due to underlying stenosis, there is a trend to perform aggressive treatments in Korea, including angioplasty or stenting. Intracranial atherosclerotic stenosis (ICAS) is one of the main causes of ischemic stroke, especially in East Asia [20]. The major stroke mechanism related to the ICAS is in situ thrombo-occlusion [21]. When patients with ICAS are treated using MT, endothelial damage may occur, causing immediate reocclusion and failure of recanalization [22]. In recent reports, tirofiban, a glycoprotein IIb/IIIa inhibitor, had a positive effect as an alternative in the reocclusive cases [22,23], and angioplasty and stenting or only angioplasty have been the last resort in these failed cases [24,25].
The present study has some limitations. Since the study is based only on survey responses, it is possible to infer a recent trend for AIS treatment rather than providing exact clinical data.

CONCLUSION

This study demonstrates that most Korean hospitals conducted EVT for AIS patients according to the present guideline, which provides insight into the current status of AIS treatment according to this first nationwide survey in the era of MT. As the demand for AIS treatment increases, the academic society should prepare to cope actively with expected problems, such as education and quality control for involved hospitals and specialists and prepare for the establishment of a new guideline.

SUPPLEMENTARY MATERIALS

Supplementary materials related to this article can be found online at https://doi.org/10.5469/neuroint.2018.01053.

Acknowledgments

This study was supported by the Korean Society of Interventional Neuroradiology (KSIN) research grant 2017.

Fig. 1.
Number of mechanical thrombectomy procedures per hospital in 2016 between tertiary and non-tertiary hospitals.
neuroint-2018-01053f1.jpg
Fig. 2.
Successful recanalization rate after mechanical thrombectomy at the responding hospitals.
neuroint-2018-01053f2.jpg
Fig. 3.
Time range after symptom onset for AIS treatment between anterior and posterior circulation. AIS, acute ischemic stroke.
neuroint-2018-01053f3.jpg
Table 1.
Selection criteria for patients not having mechanical thrombectomy
Variable Tertiary Non-tertiary
NIHSS <4 25 (64.1) 24 (64.9)
Old age (>90) 6 (15.4) 18 (48.6)
Anatomical location 13 (33.3) 19 (51.4)
Low ASPECTS 18 (46.2) 14 (37.8)
No DWI-PWI mismatch 20 (51.3) 20 (54.1)
None of the above 4 (10.3) 2 (5.4)

Values are presented as number of response (%).

NIHSS, National Institutes of Health Stroke Scale; ASPECTS, Alberta Stroke Program Early CT Score; DWI, diffusion weighted imaging; PWI, perfusion weighted imaging.

Table 2.
Devices preferred for mechanical thrombectomy
Tertiary
Non-tertiary
1st line 2nd line 1st line 2nd line
Solitaire 25 10 27 9
Trevo 6 10 8 11
ERIC 1 1 0 2
Revive 0 0 0 1
Penumbra 7 18 2 14
Table 3.
Follow-up imaging modality and time
Value
Imaging modality
 CT and MRI 32 (42.1)
 MRI 37 (48.0)
 CT 7 (9.2)
Time
 Immediately 9 (11.8)
 24-48 hours 53 (69.7)
 1 week 10 (13.2)
 Before discharge 4 (5.3)

Values are presented as number (%).

CT, computed tomography; MRI, magnetic resonance imaging.

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