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Selection criteria for large core trials: rationale for the ANGEL-ASPECT study design
  1. Zeguang Ren1,
  2. Xiaochuan Huo2,
  3. Gaoting Ma2,
  4. Xu Tong2,
  5. Jay Kumar3,
  6. Elliot Pressman4,
  7. Wenhuo Chen5,
  8. Guangxiong Yuan6,
  9. Alvin Yi-Chou Wang7,
  10. Ming Wei8,
  11. Jiangang Zhang9,
  12. Guangxian Nan10,
  13. Qiyi Zhu11,
  14. Yajie Liu12,
  15. Liyong Zhang13,
  16. Weigen Song14,
  17. Zhiming Zhou15,
  18. Guoqing Wang16,
  19. Tianxiao Li17,
  20. Jun Luo18,
  21. En Wang19,
  22. Wentong Ling20,
  23. Dongsheng Ju21,
  24. Cunfeng Song22,
  25. Shu-Dong Liu23,
  26. Liqiang Gui24,
  27. Tong Li25,
  28. Yan Liu26,
  29. Junfeng Zhao27,
  30. Zaiyu Guo28,
  31. Hongbo Zheng29,
  32. Yaxuan Sun30,
  33. Na Xu31,
  34. Yong Jun Wang32,
  35. Zhongrong Miao2
  36. on behalf of ANGEL-ASPECT Investigators and ANGEL-ASPECT Steering Committee
    1. 1 Department of Neurosurgery, Cleveland Clinic Martin Health, Port St Lucie, Florida, USA
    2. 2 Department of Interventional Neuroradiology, Beijing Tiantan Hospital, Beijing, China
    3. 3 Department of Neurosurgery, University of South Florida, Tampa, Florida, USA
    4. 4 Department of Neurosurgery and Brain Repair, University of South Florida, Tampa, Florida, USA
    5. 5 Department of Neurology, Zhangzhou Affiliated Hospital of Fujian Medical University, Zhangzhou, Fujian, China
    6. 6 Department of Emergency, Xiangtan Central Hospital, Xiangtan, Hunan, China
    7. 7 Department of Neurosurgery, Guangdong Provincial Hospital of Traditional Chinese Medicine, Guangzhou, Guangdong, China
    8. 8 Department of Neurosurgery, Tianjin Huanhu Hospital, Tianjin, China
    9. 9 Department of Neurology, Anyang People's Hospital, Anyang, Henan, China
    10. 10 Department of Neurology, China-Japan Union Hospital of Jilin University, Changchun, Jilin, China
    11. 11 Department of Neurology, Linyi People's Hospital, Linyi, Shandong, China
    12. 12 Department of Neurosurgery, Shenzhen Hospital of Southern Medical University, Shenzhen, Guangdong, China
    13. 13 Department of Neurosurgery, Liaocheng People's Hospital, Liaocheng, Shandong, China
    14. 14 Department of Neurology, Yancheng Third People's Hospital, Yancheng, Jiangsu, China
    15. 15 Department of Neurology, Yijishan Hospital of Wannan Medical College, Wuhu, Anhui, China
    16. 16 Department of Neurology, Bin zhou People's Hospital, Binzhou, Shandong, China
    17. 17 Department of Cerebrovascular Disease, Henan Provincial People's Hospital, Zhengzhou, Henan, China
    18. 18 Department of Neurology, Sichuan Mianyang 404 Hospital, Mianyang, Sichuan, China
    19. 19 Department of Neurology, Taizhou Hospital of Zhejiang Province, Linhai, Zhejiang, China
    20. 20 Department of Neurology, ZhongShan City People's Hospital, Zhongshan, China
    21. 21 Department of Neurology, Songyuan Jilin oil Field Hospital, Songyuan, Jilin, China
    22. 22 Department of Interventional Neuroradiology, Liaocheng 3rd People’s Hospital, Liaocheng, Shandong, China
    23. 23 Department of Neurology, Yongchuan Hospital of Chongqing Medical University, Chongqing, China
    24. 24 Emergency and Critical Stroke Ambulance Center, Langfang Changzheng Hospital, Langfang, Hebei, China
    25. 25 Department of Neurosurgery, Nanning Second Peoples Hospital, Nanning, Guangxi, China
    26. 26 Department of Neurology, Jingjiang People's Hospital, Jingjiang, Jiangsu, China
    27. 27 Department of Neurology, SiPing Central People’s Hospital, Siping, Jilin, China
    28. 28 Department of Neurology, Tianjin teda Hospital, Tianjin, China
    29. 29 Department of Neurology, Sichuan University West China Hospital, Chengdu, Sichuan, China
    30. 30 Department of Neurology, Shanxi Provincial Peoples Hospital, Taiyuan, Shanxi, China
    31. 31 Department of Neurology, Xiamen Medical College Affiliated Second Hospital, Xiamen, Fujian, China
    32. 32 Department of Neurology, Beijing Tiantan Hospital, Beijing, China
    1. Correspondence to Dr Zhongrong Miao, Department of Interventional Neuroradiology, Beijing Tiantan Hospital, Postal code 100070, Beijing, China; zhongrongm{at}163.com

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    Two recently published JNIS commentaries1 2 on eligibility criteria for the clinical trials on patients with large core, acute ischemic stroke (AIS) with large vessel occlusion have caused some debate. Five trials were included.1 Our ongoing trial, ANGEL-ASPECT (NCT 04551664), which represents the only large core trial currently ongoing in the Chinese population, was not included in the discussion. One issue of the debate is the addition of CT perfusion (CTP)/diffusion-weighted image of magnetic resonance imaging (DWI-MRI) to the inclusion criteria, which only the SELECT-2 trial chose to adopt. This raised concern about whether patients already known to benefit from endovascular thrombectomy (EVT) are being randomized to EVT treatment or no treatment. Like the SELECT-2 trial, our ANGEL-ASPECT trial also added CTP/DWI-MRI to our inclusion criteria, but in a manner different from SELECT-2. Here we review the merits of ANGEL-ASPECT’s design and suggest that it be included in the discussion of patient selection criteria in large core trials.

    The ANGEL-ASPECT trial

    The ANGEL-ASPECT trial is an ongoing, multicenter, randomized controlled trial (RCT) currently being conducted in China and sponsored by Beijing Tiantan Hospital. Patients are enrolled according to a prespecified protocol. Each randomized patient is qualified by two core laboratory members who are available at all hours to calculate Alberta Stroke Program Early CT Score (ASPECTS) and infarct core volume using the specialized RAPID software.

    As for the other five trials discussed in the commentary by Jadhav et al,1 the primary goal of our trial is to determine whether EVT will benefit or harm patients with AIS and large vessel occlusion and a ‘large core’ infarct. While the ANGEL-ASPECT and SELECT-2 trials both include core volume as defined by CTP in the inclusion criteria in addition to ASPECTS, the other four trials define large core using only ASPECTS. The inclusion and exclusion criteria of the six trials are summarized in table 1. Briefly, the inclusion criteria for ANGEL-ASPECT are: 1. If ASPECTS is 3–5 and presentation is within 24 hours of onset, patients are enrolled without obtaining CTP. 2. If ASPECTS is >5 and presentation is beyond 6 hours of onset, only patients with expected (rCBF) of <30% by CTP or apparent diffusion coefficient (ADC) of <620 on MRI and estimated core volume of 70–100 cc are enrolled. 3. If ASPECTS is <3, only patients with rCBF <30% or ADC on MRI <620 and estimated core volume of 70–100 cc are enrolled. The goal of the ANGEL-ASPECT trial is to include the maximum number of patients with a true large core for whom EVT is not recommended under current guidelines with level 1 evidence. Infarct core volume between 50 and 70 cc is not universally accepted as a ‘large core,’ so this population is excluded. By enrolling patients with ASPECTS <6, expanding the window to 24 hours from stroke onset (beyond the windows in DAWN and DEFUSE 3), and defining large core volume as >70 cc, ANGEL-ASPECT maximizes the inclusion of patients with true large cores.

    Table 1

    Comparison of all six ‘large core’ trials

    ANGEL-ASPECT is also important because it represents the Asian population where intracranial atherosclerotic disease is more common than in the Western world where most of the previous trials have been performed. This study will shed more light on how intracranial atherosclerotic disease might influence EVT results in this subgroup.

    Concerning inconsistency of ASPECTS grading and ability of ASPECTS to define the ‘large core’

    Multiple studies3 4 have shown that estimated ischemic core volume is independently associated with functional independence and functional improvement. Outcomes may vary significantly in the same ASPECTS category depending on infarct volume.4 Moreover, ischemic changes in some areas of the brain are difficult to grade for ischemia on non-contrast CT (NCCT) using the ASPECTS criteria, leading to interoperator variability in ASPECTS, as was seen in the TENSION trial.5 An inaccurate ASPECTS can mis-assign the subgroup of patients eligible for ‘class I treatment guideline of ASPECTS >5’ into the untreated group, or the subgroup patients not eligible for the ‘class I treatment guideline’ into the treatment group, weakening the conclusions from the trial. If we use rCBF determined by CTP, or the ADC sequence on MRI, to help to define large core, we may have a better chance of catching patients with true large cores but questionable ASPECTS.

    Unreliability of CTP prediction of accurate core volume and why include the CTP in inclusion criteria

    As indicated by Jadhav in the commentary,1 many studies6–8 have overestimated real infarct core volume from the prediction by CTP. It is known that in the early window, CTP is more likely to overestimate core volume,9 especially in the patients with very low ASPECTS, such as 0–2.10 To avoid this pitfall, in ANGEL-ASPECT, CTP is used in the inclusion criteria in only two situations: one is in the later window (>6 hours after stroke onset) in patients with ASPECTS >5 where the accuracy of CTP is maintained; the second is for patients with ASPECTS 0–2 at any time, to include patients with true large but not ‘pseudo too-large’ core. Unlike SELECT-2 whose inclusion criteria use CTP-estimated core volume in both early and later windows, and the lower inclusion threshold of 50 cc, ANGEL-ASPECT minimizes the risk of enrolling patients with favorable ASPECTS and low core volume of 50–70 cc—the two groups that may be denied proven treatment by randomization to the non-intervention group.

    Many studies3 11 12 have demonstrated that patients without a mismatch do not have a favorable clinical response to reperfusion. It has been suggested that that the size of the penumbra might affect the outcome of reperfusion, and 80% of patients with AIS have penumbra regardless of the volume of the infarct core.11 Randomized trials are needed to determine the role of penumbra in clinical outcomes in patients with a large core.

    Benefit of EVT in favorable aspects, large CTP core in the early window

    Use of EVT for patients with NCCT ASPECTS 6–10 within early window (onset within 6 hours) is supported by level 1 evidence, and CTP is generally not recommended for these patients. However, among these patients, there are some with CTP-defined ischemic core volumes ≥50 cc. Very few of these patients were included in the published RCTs and there is debate about whether these patients will benefit from EVT.2 Inclusion of patients with CTP-defined ischemic core volumes ≥50 cc may help to clarify this question.

    The benefit of EVT in patients with favorable ASPECTS regardless of large’ CTP-defined core in the early window has been confirmed in multiple RCTs, and EVT for these patients is recommended by guidelines endorsed by many stroke societies.13–15 Choosing to randomize these patients is difficult to defend in applications to institutional review boards regulating the clinical trials in China. Furthermore, lumping patients of this group with others into a single large core’ population would hinder the ability to draw meaningful conclusions. Considering these factors, a decision was made not to use CTP-defined core volume in the inclusion criteria for this population with early onset (within 6 hours) in the ANGEL-ASPECT trial.

    CTP definition of large core: 50 cc versus 70 cc in the early or late time window

    As shown by several studies,6–10 overestimation of infarct core in the early window, especially within 3 hours, affects the accuracy of using CTP to evaluate the infarct core. Almost all the studies and trials use 70 cc as the criterion for large core. We believe that lowering the threshold of CTP in the early windows may exaggerate this issue considerably, resulting in enrolling more patients with pseudo-large core infarcts. Given this concern, we used the 70 cc criteria only for patients in the early window (onset <6 hours) with ASPECTS 0–2. It is also noted that the investigators of SELECT-2 have planned to make a similar change, decreasing the threshold of infarct core of rCBF on CTP from <30% to <20%, but only in patients presenting 0–2 hours after the time last known well.2

    Although there is some evidence in different studies16 17 showing the benefit of EVT for patients with 50–70 cc core volume, we agree that the evidence is not that substantial, and no RCTs have confirmed this finding. Core lesions between 50 and 70 cc are not considered by all to be large core. Adding patients with 50–70 cc core lesions into the large core trial, may compromise trial conclusions. Given this concern, we set 70 cc as our lower limit. So far, CTP-based enrollment accounts for only about 10% of all enrolled patients in ANGEL-ASPECT based on the initial core-laboratory adjudication. Given the small percentage, we do not expect the power of our trial to be significantly affected in comparison with the four trials that do not use CTP-defined inclusion criteria.

    Advantages of using CTP-defined ischemic core volume

    Some patients have poor ASPECTS but moderate core volumes and significant penumbra.

    Due to the inter-rater variability of the ASPECT score, using CTP-defined ischemic core volume may be advantageous.

    First, we know that patients with low ASPECTS and favorable CTP core volume may benefit from EVT. This has been confirmed by high-quality studies,18 19 although few patients with ASPECTS <6 have been previously included. CTP offers a more objective measure than ASPECTS, but this has not yet been confirmed in a high-quality RCT. Including patients with low ASPECTS and favorable CTP-defined core volume allows for comparison of these two criteria. We believe that if a patient has values of ASPECTS and CTP-defined core volume available, subgroup analysis might help to clarify the mechanism of any benefit found from EVT.

    Second, debate exists about the ideal ASPECTS cut-off point. Patients with ASPECTS 0–2 are not included in our study, as in other large core trials, given the poor outcome expected in these patients. But the significant inter-rater variability of reading NCCT ASPECTS can easily lead to inclusion or exclusion of borderline patients. In a study of 337 patients with onset >6 hours, CT ASPECTS 0–2 comprised 11.6% of all ASPECTS patients, and 30.2% of all patients with ASPECTS <6.10 The study showed that patients with ASPECTS 2 had an average core volume of 70 cc in overall population versus 100 cc in the later window (onset time >6 hours).10 We believe that adding CTP inclusion criteria to this population with CTP-defined rCBF <30% 70–100 cc, given the guidelines13–15 that recommend using >70 cc to define large core volume, could avoid including patients who truly have ASPECTS 0–2 and are EVT-futile while catching more patients with a large core.

    Risk of early stopping for efficacy or futility

    In contrast to the other four trials, the SELECT-2 and our ANGEL-ASPECT trials incorporated CTP-defined ischemic core volume to select patients. We believe that should either of these trials be stopped early for efficacy or futility, the other trials should continue. The different results from other trials may demonstrate the different effects of different selection strategies.

    Since onset to reperfusion time is the most important modifiable factor contributing to good outcome, shortening this time should be prioritized. Under the current guideline, use of multiple imaging modalities to select patients for EVT caused an approximate 20 min EVT treatment delay,20 this is especially a problem in China, given that informed consent is required for contrast application and additional nursing staff are needed for contrast injection. If the trials with and without CTP inclusion criteria demonstrated non-inferiority and no increased safety concern with EVT regardless of whether penumbra was present, this would be as good as the positive result of the benefit of EVT on patients with a large core. This result would provide strong support for direct transfer to the angiography suite.

    Conclusion

    We believe that defining core volume using CTP can compensate for the inconsistencies of ASPECTS if we exclude patients with onset within 6 hours and core volume of 50–70 cc since these patients have already been shown to benefit from EVT in multiple RCTs. We believe that this decision captures more patients with true large core volumes for the trial. The sample size of our ANGEL-ASPECT trial is calculated based on studies excluding these populations. The power of the trial was maintained for the relatively consistent patient population with large core volume.

    Data availability statement

    Data are available in a public, open access repository. Data are available upon reasonable request. All data relevant to the study are included in the article or uploaded as supplementary information.

    Ethics statements

    Patient consent for publication

    References

    Footnotes

    • ZR and XH are joint first authors.

    • Twitter @freealvin

    • ZR and XH contributed equally.

    • Collaborators ANGEL-ASPECT Investigators: Miao Zhongrong (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Ren Zeguang (University of south Florida, Tampa General Hospital, United States of America; Department of Neurosurgery); Vitor Mendes Pereira (St. Michael's Hospital, Toronto, Canada; Division of Neurosurgery, Department of Surgery); Huo Xiaochuan (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Ma Gaoting (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Tong Xu (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Zhang Xuelei (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Sun Dapeng (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Liu Zhenqiang (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Yang Ming (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Zhang Yupeng (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Nie Ximing (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Wei Na (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Yang bo (Beijing Tiantan Hospital, Capital Medical University; Department of Interventional Neuroradiology); Meng Xia (Beijing Tiantan Hospital, Capital Medical University, China National Clinical Research Center for Neurological Diseases; Center of Neurology); Pan Yuesong (Beijing Tiantan Hospital, Capital Medical University, China National Clinical Research Center for Neurological Diseases; China National Clinical Research Center for Neurological Diseases); Wang Anxin (Beijing Tiantan Hospital, Capital Medical University, China National Clinical Research Center for Neurological Diseases; China National Clinical Research Center for Neurological Diseases); Liu Liping (Beijing Tiantan Hospital, Capital Medical University; Department of Neurology); Wang Yilong (Beijing Tiantan Hospital, Capital Medical University; Department of Neurology); Wang Yongjun (Beijing Tiantan Hospital, Capital Medical University; Department of Neurology); Ji Xunming (Capital Medical University, Xuanwu Hospital; Department of Neurosurgery); Liu Xinfeng (University of Science and Technology of China; Department of Neurology); Dong Qiang (Huashan Hospital Affiliated to Fudan University; Department of Neurology); Xu Anding (Guangzhou Overseas Chinese Hospital, the First Affiliated Hospital of Jinan University; Department of Neurology); Yang Qingwu (Xinqiao Hospital Army Medical University; Department of Neurology); Geng Xiaokun (Beijing Luhe Hospital,Capital Medical University; Department of Neurology); Zhang Shiyong (Beijing Fengtai You'anmen Hospital; Department of Neurology); Zhou Zhiming (Yijishan Hospital of Wannan Medical College; Department of Neurology); Chen Wenhuo (Zhangzhou Municipal Hospital of Fujian Province; Department of Neurology); Wang Yizhou (Guangdong Hospital of TCM; Department of Neurosurgery); Liao Geng (Maoming People's Hospital; Department of Neurology); Liu Yajie (Southern Medical University Shenzhen Hospital; Department of Neurosurgery); Ling Wentong (Zhongshan People's Hospital; Department of Neurology); LI Tong (The Second Nanning People'S Hospital; Department of Neurology); Xu Guodong (Hebei General Hospital; Department of Interventional Neuroradiology); Gui Liqiang (Langfang Changzheng Hospital; Emergency and Critical Stroke Ambulance Center); Li Tianxiao (Henan Province Hospital; Department of Neurology); Zhang Jiangang (The People's Hospital Of Anyang City; Department of Neurology); Ju Dongsheng (Songyuan Jilin Oilfield Hospital; Department of Neurology); Zhao Junfeng (Siping Central People's Hospital; Department of Neurology); Shi Haibin (Jiangsu Province Hospital; Department of Interventional radiology; Pen Ya (The First People's Hospital of Changzhou; Department of Neurosurgery); Liu Yan (Jingjiang People'S Hospital; Department of Neurology); Shi Hongchao (Nanjing First Hospital; Department of Neurology); Wu Jin (The Second Affiliated Hospital of Nanjing Medical University; Department of Neurology); Ding Yasuo (Jiangsu Taizhou People'S Hospital; Department of Neurosurgery); Song Weigen (Yancheng Third People's Hospital; Department of Neurology); Li Di (Dalian Municipal Central Hospital Affiliated to Dalian Medical University; Department of Interventional therapy); Jiang Changchun (Baotou Central Hospital; Department of Neurology); Zhu Qiyi (Linyi People'S Hospital; Department of Neurology); Han Hongxing (Linyi People'S Hospital; Department of Neurology); Wang Guoqing (Binzhou People's Hospital; Department of Neurology); Song Cunfeng (Liaocheng Third People's Hospital; Department of Neurology); LI Weirong (Taiyuan Central Hospital of Shanxi Medical University; Department of Neurology); Zhao Jing (Minhang Hospital Affiliated to Fudan University; Department of Neurology); Bi Yong (Shanghai Fourth People's Hospital; Department of Neurology); Zheng Hongbo (West China Hospital, Sichuan University; Department of Neurology); Luo Jun (Sichuan Mianyang 404 Hospital; Department of Neurology); Li Jinglun (The Affiliated Hospital Of Southwest Medical University; Department of Neurology); Wei Ming (Tianjin Huanhu Hospital; Department of Neurosurgery); Guo Zaiyu (Teda Hospital; Department of Neurosurgery); Yin Congguo (Affliated Hangzhou First People's Hospital, Zhejiang University School of Medicine; Department of Neurology); Wang En (Taizhou Hospital Of Zhejiang Province; Department of Neurology); Liu Shudong (Yongchuan Hospital Of Chongqing Medical University; Department of Neurology); Cai Chuwei (Shantou Central Hospital; Department of Neurosurgery); Zhang Meng (Daping Hospital; Department of Neurology); Cai Xueli (Lishui City Center Hospital; Department of Neurology); Nan Guangxian (China-Japan Union Hospital Of Jilin University; Department of Neurology); Zhang Liyong (Liao city brain hospital in Shandong Province; Department of Neurosurgery); Yang Hua (The Affiliated Hospital Of Guizhou Medical University; Department of Neurosurgery); Sun Yaxuan (Shanxi Province Hospital; Department of Neurology); Xu Na (The Second Affiliated Hospital of Xiamen Medical College; Department of Neurology); Yang Xinguang (The Second Affiliated Hospital Of Guangzhou Medical University; Department of Neurology); Yuan Guangxiong (Xiangtan Central Hospital; Department of Critical Care Medicine); Dai Linzhi (First Affiliated Hospital, School of Medicine, Shihezi University; Department of Neurosurgery); Huang Wenguo (Maoming Hospital of Traditional Chinese Medicine; Department of Neurology); Gao Zongen (Shengli Oilfield Central Hospital; Department of Neurology); Shi Qing (Wuyi Hospital of traditional Chinese medicine, Jiangmen city; Department of Encephalopathy); Tang Yufeng (Mianyang Central Hospital; Department of Neurology); Yue Wencan (Zhoukou Central Hospital; The centre of stroke); Wen Changming (Nanyang Central Hospital; Department of Neurology). ANGEL-ASPECT Steering Committee: Miao Zhongrong (Beijing Tiantan Hospital, Capital Medical University; Tiantan Interventional Neuroradiology); Ren Zeguang (University of south Florida, Tampa General Hospital, United States of America; Tiantan Interventional Neuroradiology); Vitor Mendes Pereira (St. Michael's Hospital, Toronto, Canada; Division of Neurosurgery, Department of Surgery); Wang Yongjun (Beijing Tiantan Hospital, Capital Medical University; Department of Neurology); Wang Yilong (Beijing Tiantan Hospital, Capital Medical University; Department of Neurology); Liu Liping (Beijing Tiantan Hospital, Capital Medical University; Department of Neurology); David Liebeskind (UCLA Comprehensive Stroke Center; Department of Neurology).

    • Contributors ZR drafted and revised the paper. XH, GM, XT, JK, and EP revised the paper. ZM monitored data collection for the whole trial. All members of ANGEL-ASPECT designed and implemented the trial.

    • Funding The authors have not declared a specific grant for this research from any funding agency in the public, commercial or not-for-profit sectors.

    • Competing interests None declared.

    • Provenance and peer review Not commissioned; externally peer reviewed.

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