体外膜肺氧合治疗成人心脏病:健康技术评估》。

Q1 Medicine
Ontario Health Technology Assessment Series Pub Date : 2020-03-06 eCollection Date: 2020-01-01
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引用次数: 0

摘要

背景:体外膜肺氧合(ECMO)是一种抢救疗法,用于稳定血流动力学受损的患者,如难治性心源性休克或心脏骤停患者。当用于心脏骤停时,ECMO 也被称为体外心肺复苏(ECPR)。我们对用于常规心肺复苏(CPR)难治性心搏骤停或常规药物治疗(即药物、主动脉内球囊反搏泵和临时心室辅助装置等机械支持)难治性心源性休克的成人(年龄≥ 18 岁)的静脉动脉 ECMO 进行了健康技术评估。我们的评估包括对这些适应症的有效性、安全性、成本效益、政府资助 ECMO 对预算的影响以及患者的偏好和价值观进行评估:我们对临床证据进行了系统的文献检索。我们使用系统性综述中的偏倚风险(ROBIS)工具评估了每项纳入研究的偏倚风险,使用非随机试验中的偏倚风险(ROBINS-I)工具评估了观察性研究的偏倚风险,并根据建议评估、发展和评价分级(GRADE)工作组的标准评估了证据的质量。我们进行了系统的经济文献检索,并从公共支付方的角度进行了终生成本效益分析。我们还分析了安大略省公共资助 ECMO 对难治性心源性休克或心脏骤停患者的预算影响。为了解 ECMO 在心脏适应症方面的潜在价值,我们采访了有直接经验的患者和护理人员:我们在临床回顾中纳入了一篇系统性综述(包括 13 项观察性研究)和另外两项观察性研究。与难治性心脏骤停患者的传统心肺复苏术相比,ECPR 可显著提高患者的 30 天存活率(汇总风险比 [RR] 1.54;95% CI 1.03 至 2.30)(GRADE:极低),并显著提高长期存活率(汇总 RR 2.17;95% CI 1.37 至 3.44)(GRADE:低)。总体而言,与传统 CPR 相比,ECPR 可显著改善难治性心脏骤停患者 30 天的良好神经功能预后;汇总 RR 为 2.02(95% CI 为 1.29 至 3.16)(GRADE:极低)。对于心源性休克患者,与主动脉内球囊反搏泵相比,ECMO 可显著提高其 30 天存活率(汇总 RR 2.11;95% CI 1.23 至 3.61)(等级评定:极低)。与临时经皮心室辅助装置相比,ECMO 与生存率的提高无关(汇总风险比为 0.94;95% CI 为 0.67 至 1.30)(GRADE:极低)。我们估计,与传统心肺复苏相比,对于院内和院外心脏骤停患者,ECPR 的增量成本效益比分别为每增益生命年 (LYG) 18,722 美元和 28,792 美元。我们估计,在院内和院外心脏骤停患者的支付意愿为每 LYG 50,000 美元时,ECMO 与传统 CPR 相比具有成本效益的概率分别为 93% 和 60%。我们估计,未来 5 年安大略省对 ECMO 的公共资助将使心源性休克(治疗 314 人)的总费用增加 1,673,811 美元,院内心脏骤停(治疗 126 人)的总费用增加 2,195,517 美元,院外心脏骤停(治疗 247 人)的总费用增加 3,762,117 美元。他们都曾因急性血流动力学不稳定而住院。在决定是否接受该程序时,参与者通常依赖于医生的专业知识和判断:结论:对于接受难治性心脏骤停治疗的成人,与传统心肺复苏术相比,ECPR 可提高存活率,并有可能改善长期神经功能预后。对于接受心源性休克治疗的患者,与主动脉内球囊反搏泵相比,ECMO 可提高 30 天的存活率,但仍存在很大的不确定性。对于难治性心脏骤停的成人患者,与传统心肺复苏相比,ECMO 可能具有成本效益。我们估计,未来 5 年,安大略省为心脏骤停和心源性休克患者提供的 ECMO 公共资金每年将花费约 845,000 美元至 220 万美元。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Extracorporeal Membrane Oxygenation for Cardiac Indications in Adults: A Health Technology Assessment.

Background: Extracorporeal membrane oxygenation (ECMO) is a rescue therapy used to stabilize patients with hemodynamic compromise such as refractory cardiogenic shock or cardiac arrest. When used for cardiac arrest, ECMO is also known as extracorporeal cardiopulmonary resuscitation (ECPR). We conducted a health technology assessment of venoarterial ECMO for adults (aged ≥ 18 years) with cardiac arrest refractory to conventional cardiopulmonary resuscitation (CPR) or with cardiogenic shock refractory to conventional medical management (i.e., drugs, mechanical support such as intra-aortic balloon pump and temporary ventricular assist devices). Our assessment included an evaluation of effectiveness, safety, cost-effectiveness, the budget impact of publicly funding ECMO for these indications, and patient preferences and values.

Methods: We performed a systematic literature search of the clinical evidence. We assessed the risk of bias of each included study using the Risk of Bias in Systematic Reviews (ROBIS) tool for systematic reviews and the Risk of Bias Among Nonrandomized Trials (ROBINS-I) tool for observational studies, and the quality of the body of evidence according to the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) Working Group criteria. We performed a systematic economic literature search and conducted a cost-effectiveness analysis with a lifetime horizon from a public payer perspective. We also analyzed the budget impact of publicly funding ECMO in Ontario for patients with refractory cardiogenic shock or cardiac arrest. To contextualize the potential value of ECMO for cardiac indications, we spoke with patients and caregivers with direct experience with the procedure.

Results: We included one systematic review (with 13 observational studies) and two additional observational studies in the clinical review. Compared with traditional CPR for patients with refractory cardiac arrest, ECPR was associated with significantly improved 30-day survival (pooled risk ratio [RR] 1.54; 95% CI 1.03 to 2.30) (GRADE: Very Low) and significantly improved long-term survival (pooled RR 2.17; 95% CI 1.37 to 3.44) (GRADE: Low). Overall, ECPR was associated with significantly improved 30-day favourable neurological outcome in patients with refractory cardiac arrest compared with traditional CPR; pooled RR 2.02 (95% CI 1.29 to 3.16) (GRADE: Very Low). For patients with cardiogenic shock, ECMO was associated with a significant improvement in 30-day survival compared with intra-aortic balloon pump (pooled RR 2.11; 95% CI 1.23 to 3.61) (GRADE: Very Low). Compared with temporary percutaneous ventricular assist devices, ECMO was not associated with improved survival (pooled risk ratio 0.94; 95% CI 0.67 to 1.30) (GRADE: Very Low).We estimated the incremental cost-effectiveness ratio of ECPR compared with conventional CPR is $18,722 and $28,792 per life-year gained (LYG) for in-hospital and out-of-hospital cardiac arrest, respectively. We estimated the probability of ECPR being cost-effective versus conventional CPR is 93% and 60% at a willingness-to-pay of $50,000 per LYG for in-hospital and out-of-hospital cardiac arrest, respectively. We estimate that publicly funding ECMO in Ontario over the next 5 years would result in additional total costs of $1,673,811 for cardiogenic shock (treating 314 people), $2,195,517 for in-hospital cardiac arrest (treating 126 people), and $3,762,117 for out-of-hospital cardiac arrest (treating 247 people).The eight patients and family members with whom we spoke had limited ability to assess the impact of ECMO or report their impressions because of their critical medical situations when they encountered the procedure. All had been in hospital with acute hemodynamic instability. In the decision to receive the procedure, participants generally relied on the expertise and judgment of physicians.

Conclusions: For adults treated for refractory cardiac arrest, ECPR may improve survival and likely improves long-term neurological outcomes compared with conventional cardiopulmonary resuscitation. For patients treated for cardiogenic shock, ECMO may improve 30-day survival compared with intra-aortic balloon pump, but there is considerable uncertainty.For adults with refractory cardiac arrest, ECPR may be cost-effective compared with conventional CPR. We estimate that publicly funding ECMO for people with cardiac arrest and cardiogenic shock in Ontario over the next 5 years would cost about $845,000 to $2.2 million per year.People with experience of ECMO for cardiac indications viewed it as a life-saving device and expressed gratitude that it was available and able to help stabilize their acute medical condition.

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Ontario Health Technology Assessment Series
Ontario Health Technology Assessment Series Medicine-Medicine (miscellaneous)
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