心房颤动患者生物义肢SAVR后口服抗凝:NOACs的现状如何?

IF 1.6 4区 医学 Q3 CARDIAC & CARDIOVASCULAR SYSTEMS
M. Milojevic, A. Nikolić, S. Mićović, A. Jeppsson
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This is especially true for decision-making in cardiac surgery patients with incremental risk of thromboembolic complications, such as prolonged immobility, stroke, malignancy, prior and de novo atrial fibrillation (AF), congestive heart failure, history of major venous and pulmonary thromboembolism and hypercoagulable conditions. Focused research on these clinical scenarios was considered less important, and the academic community has concentrated chiefly on assessing structural failure. Consequently, postsurgical antithrombotic management is based not on valuable research findings but rather on local habits. Recently, however, surgical and transcatheter BHV thrombosis and the prevention of thromboembolic complications have attracted significant attention due to better imaging surveillance [3]. The lack of robust data on the efficacy and safety of different anticoagulation regimens is reflected by seeing lower levels of evidence (LOEs) behind the recommendations in the recently released European Society of Cardiology (ESC)/European Association for Cardio-Thoracic Surgery (EACTS) Guidelines for the management of valvular heart disease [6]. For patients with no baseline indication for oral anticoagulation (OAC), the ESC/ EACTS guidelines recommend either low-dose aspirin (75– 100 mg/day) or a VKA for the first 3 months after surgical implantation of an aortic BHV [class of recommendation (COR) IIa, LOE B]. For those who received a BVH in the mitral or tricuspid position, a VKA should be considered as the anticoagulation strategy (COR IIa, LOE B). For patients undergoing surgical implantation of a BHV with other anticoagulation indications, the guidelines recommend treatment with OAC (COR I, LOE C). 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Recently, however, surgical and transcatheter BHV thrombosis and the prevention of thromboembolic complications have attracted significant attention due to better imaging surveillance [3]. The lack of robust data on the efficacy and safety of different anticoagulation regimens is reflected by seeing lower levels of evidence (LOEs) behind the recommendations in the recently released European Society of Cardiology (ESC)/European Association for Cardio-Thoracic Surgery (EACTS) Guidelines for the management of valvular heart disease [6]. For patients with no baseline indication for oral anticoagulation (OAC), the ESC/ EACTS guidelines recommend either low-dose aspirin (75– 100 mg/day) or a VKA for the first 3 months after surgical implantation of an aortic BHV [class of recommendation (COR) IIa, LOE B]. For those who received a BVH in the mitral or tricuspid position, a VKA should be considered as the anticoagulation strategy (COR IIa, LOE B). 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引用次数: 0

摘要

由于全球人口老龄化,非风湿性心瓣膜病的负担迅速增加[1]。超过2400万人患有退行性二尖瓣疾病,而钙化性主动脉疾病稳步上升,在大流行前达到900万例[1,2]。用机械或生物假体修复或更换病变瓣膜仍然是瓣膜性心脏病患者唯一确定的治疗方法。全球每年进行的心脏瓣膜置换术超过20万例,预计到2050年将增加到每年85万例[3]。在过去的20年里,人们已经注意到从机械到生物假体心脏瓣膜(BHV)替代品的巨大转变[4],尽管耐久性问题尚未解决。BHV策略的改变可以部分解释为年轻人倾向于避免终身使用维生素K拮抗剂(VKA)治疗,这是机械心脏瓣膜需要的,更多出血风险较高的老年患者接受治疗。手术置换病变瓣膜的目的是改善症状和延长寿命,但使患者暴露于潜在的假体相关并发症。组织瓣膜虽然比机械心脏瓣膜的血栓形成性小,但也容易引起血栓栓塞性并发症,在术后的前3个月风险特别高[5]。尽管BHV的使用频率很高,但最佳的术后抗凝策略仍不清楚。对于血栓栓塞并发症风险增加的心脏手术患者的决策尤其如此,如长期不动、中风、恶性肿瘤、既往和新发心房颤动(AF)、充血性心力衰竭、主要静脉和肺血栓栓塞史以及高凝性疾病。集中研究这些临床情况被认为不太重要,学术界主要集中在评估结构失效。因此,术后抗血栓管理不是基于有价值的研究结果,而是基于当地的习惯。然而,最近,由于更好的影像学监测,手术和经导管BHV血栓形成和血栓栓塞并发症的预防引起了人们的极大关注[3]。最近发布的欧洲心脏病学会(ESC)/欧洲心胸外科协会(EACTS)关于瓣膜性心脏病管理指南的建议,证据水平较低,这反映了不同抗凝治疗方案的有效性和安全性缺乏可靠的数据[6]。对于基线无口服抗凝(OAC)指征的患者,ESC/ EACTS指南建议在主动脉置入术后的前3个月内使用低剂量阿司匹林(75 - 100mg /天)或VKA[推荐等级(COR) IIa, LOE B]。对于在二尖瓣或三尖瓣位置接受BVH的患者,应考虑VKA作为抗凝策略(COR IIa, LOE B)。对于手术植入BHV并有其他抗凝指征的患者,指南建议使用OAC (COR I, LOE C)治疗。然而,VKA和非维生素K拮抗剂(NOAC)之间的选择仍然不确定。指南建议AF患者(COR IIa, LOE B)在主动脉位置置入术BHV 3个月后考虑NOAC而不是VKA。此外,AF患者在二尖瓣位置置入术BHV 3个月后考虑NOAC而不是VKA,但这是基于低质量证据(COR IIb, LOE C)的弱推荐。Magro和Sousa-Uva[7]报道了一项系统的文献检索和对现有证据的批判性评价的结果,以回答一个重要的临床问题,即在AF患者手术植入BHV后3个月内,noac的疗效和安全性是否与vka相似。Magro和Sousa-Uva[7]的研究值得注意的发现可总结如下
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Oral anticoagulation following bioprosthetic SAVR in patients with atrial fibrillation: what’s the current status of NOACs?
The burden of non-rheumatic valvular heart disease has increased rapidly due to the worldwide ageing population [1]. More than 24 million people suffer from degenerative mitral valve disease, while calcific aortic disease steadily rises, reaching 9 million cases before the pandemic [1, 2]. Repair or replacement of the diseased valve by either mechanical or biological prosthesis remains the only definitive treatment for patients with valvular heart disease. Over 200 000 heart valve replacement surgeries are performed annually worldwide, with a predicted increment to 850 000 per year by 2050 [3]. Over the last 2 decades, a massive shift from mechanical to bioprosthetic heart valve (BHV) replacements has been noticed [4], despite unresolved durability issues. The change to a BHV strategy could be partially explained by the preference of younger individuals to avoid lifelong treatment with a vitamin K antagonist (VKA), which mechanical heart valves warrant, and more elderly patients at higher bleeding risk being treated. Surgical replacement of a diseased valve aims to improve symptoms and prolong life but exposes the patient to potential prosthesis-related complications. Although less thrombogenic than mechanical heart valves, tissue valves are also prone to cause thromboembolic complications, and the risk is exceptionally high during the first 3 months after the operation [5]. Despite the frequency of BHV usage, the optimal postoperative anticoagulation strategy remains unclear. This is especially true for decision-making in cardiac surgery patients with incremental risk of thromboembolic complications, such as prolonged immobility, stroke, malignancy, prior and de novo atrial fibrillation (AF), congestive heart failure, history of major venous and pulmonary thromboembolism and hypercoagulable conditions. Focused research on these clinical scenarios was considered less important, and the academic community has concentrated chiefly on assessing structural failure. Consequently, postsurgical antithrombotic management is based not on valuable research findings but rather on local habits. Recently, however, surgical and transcatheter BHV thrombosis and the prevention of thromboembolic complications have attracted significant attention due to better imaging surveillance [3]. The lack of robust data on the efficacy and safety of different anticoagulation regimens is reflected by seeing lower levels of evidence (LOEs) behind the recommendations in the recently released European Society of Cardiology (ESC)/European Association for Cardio-Thoracic Surgery (EACTS) Guidelines for the management of valvular heart disease [6]. For patients with no baseline indication for oral anticoagulation (OAC), the ESC/ EACTS guidelines recommend either low-dose aspirin (75– 100 mg/day) or a VKA for the first 3 months after surgical implantation of an aortic BHV [class of recommendation (COR) IIa, LOE B]. For those who received a BVH in the mitral or tricuspid position, a VKA should be considered as the anticoagulation strategy (COR IIa, LOE B). For patients undergoing surgical implantation of a BHV with other anticoagulation indications, the guidelines recommend treatment with OAC (COR I, LOE C). However, the choice between a VKA and a non-vitamin K antagonist (NOAC) remains uncertain. The guidelines recommend that an NOAC be considered over a VKA 3 months after surgical implantation of a BHV in the aortic position in patients with AF (COR IIa, LOE B). In addition, an NOAC over a VKA may be considered after 3 months following surgical implantation of a BHV in the mitral position in patients with AF, but this is a weak recommendation based on low-quality evidence (COR IIb, LOE C). In this issue of the journal, Magro and Sousa-Uva [7] report the results of a systematic literature search and critical appraisal of available evidence to answer an essential clinical question of whether the efficacy and safety of NOACs are similar to VKAs within 3 months of surgical implantation of a BHV in those patients with AF. The noteworthy findings of the research by Magro and Sousa-Uva [7] can be summarized as follows: A D U LT C A R D IA C
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来源期刊
Interactive cardiovascular and thoracic surgery
Interactive cardiovascular and thoracic surgery CARDIAC & CARDIOVASCULAR SYSTEMS-
CiteScore
3.30
自引率
0.00%
发文量
292
审稿时长
2-4 weeks
期刊介绍: Interactive CardioVascular and Thoracic Surgery (ICVTS) publishes scientific contributions in the field of cardiovascular and thoracic surgery, covering all aspects of surgery of the heart, vessels and the chest. The journal publishes a range of article types including: Best Evidence Topics; Brief Communications; Case Reports; Original Articles; State-of-the-Art; Work in Progress Report.
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