Portable Normothermic Cardiac Perfusion System in Donation After Cardiocirculatory Death: A Health Technology Assessment.

Q1 Medicine Ontario Health Technology Assessment Series Pub Date : 2020-03-06 eCollection Date: 2020-01-01
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We conducted a health technology assessment of a portable normothermic cardiac perfusion system for the preservation and transportation of DCD hearts for adult transplantation. This included an evaluation of the effectiveness, safety, value for money, and budget impact of publicly funding this system, as well as an evaluation of patient preferences and values.</p><p><strong>Methods: </strong>We performed a systematic review of the clinical literature published since 1998 that examined the clinical safety and effectiveness of a portable normothermic cardiac perfusion system for DCD heart transplantation. We assessed the risk of bias of each included study and the quality of the body of evidence according to the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) Working Group criteria. We also reviewed the economic evidence published during the same time period for the cost-effectiveness of a portable normothermic cardiac perfusion system for DCD hearts compared with cold storage for NDD hearts. We further estimated the 5-year net budget impact of publicly funding a normothermic cardiac perfusion system for DCD heart transplantation for adults on Ontario's waitlist. To contextualize the potential value of a portable normothermic cardiac perfusion system, we spoke with people waiting for a heart transplant, people who had received a heart transplant, and family members of organ donors.</p><p><strong>Results: </strong>We screened 2,386 clinical citations. One study and two case reports met the inclusion criteria. The survival of recipients of DCD hearts procured with a portable normothermic cardiac perfusion system did not differ significantly from the survival of recipients of hearts donated after NDD at 30 days or 90 days, nor was there a significant difference in cumulative survival at 1 year post-transplant (GRADE: Very Low). The occurrence of rejection and graft failure also did not significantly differ between the groups (GRADE: Very Low). Cardiac function in the early post-operative period was better in DCD hearts than NDD hearts (GRADE: Very Low). There were no differences in outcomes between DCD procurement techniques.The economic literature search yielded 62 citations. One report met the inclusion criteria but was not directly applicable to the Ontario context. Given the lack of clinical and economic evidence on long-term outcomes, we did not conduct a primary economic evaluation. 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引用次数: 0

Abstract

Background: Heart transplantation is the most effective treatment for people experiencing end-stage heart failure whose quality of life and life expectancy are unacceptable. However, there is a chronic shortage of donor hearts to meet the demand, so it is essential to expand the donor pool and increase supply. Heart donation mainly occurs after brain death (neurological determination of death [NDD]), but it may also be feasible after cardiocirculatory death (when the heart has stopped beating and there is no longer blood flow or a pulse), provided specialized preservation techniques are used. An investigational device, a portable normothermic cardiac perfusion system, could make it possible to procure, preserve, and transport hearts donated after cardiocirculatory death (DCD). We conducted a health technology assessment of a portable normothermic cardiac perfusion system for the preservation and transportation of DCD hearts for adult transplantation. This included an evaluation of the effectiveness, safety, value for money, and budget impact of publicly funding this system, as well as an evaluation of patient preferences and values.

Methods: We performed a systematic review of the clinical literature published since 1998 that examined the clinical safety and effectiveness of a portable normothermic cardiac perfusion system for DCD heart transplantation. We assessed the risk of bias of each included study and the quality of the body of evidence according to the Grading of Recommendations Assessment, Development, and Evaluation (GRADE) Working Group criteria. We also reviewed the economic evidence published during the same time period for the cost-effectiveness of a portable normothermic cardiac perfusion system for DCD hearts compared with cold storage for NDD hearts. We further estimated the 5-year net budget impact of publicly funding a normothermic cardiac perfusion system for DCD heart transplantation for adults on Ontario's waitlist. To contextualize the potential value of a portable normothermic cardiac perfusion system, we spoke with people waiting for a heart transplant, people who had received a heart transplant, and family members of organ donors.

Results: We screened 2,386 clinical citations. One study and two case reports met the inclusion criteria. The survival of recipients of DCD hearts procured with a portable normothermic cardiac perfusion system did not differ significantly from the survival of recipients of hearts donated after NDD at 30 days or 90 days, nor was there a significant difference in cumulative survival at 1 year post-transplant (GRADE: Very Low). The occurrence of rejection and graft failure also did not significantly differ between the groups (GRADE: Very Low). Cardiac function in the early post-operative period was better in DCD hearts than NDD hearts (GRADE: Very Low). There were no differences in outcomes between DCD procurement techniques.The economic literature search yielded 62 citations. One report met the inclusion criteria but was not directly applicable to the Ontario context. Given the lack of clinical and economic evidence on long-term outcomes, we did not conduct a primary economic evaluation. In the budget impact analysis, based on the number of DCD donors under 40 years of age in the last 5 years, we estimated that the increased availability of donor hearts made possible by the technology would result in an additional seven transplants in year 1, increasing to 12 in year 5. The annual net budget impact of publicly funding a normothermic cardiac perfusion system for the transplantation of DCD hearts in Ontario over the next 5 years is about $2.0 million in the first year and about $0.9 million in each of years 2 through 5, yielding a total net budget impact of about $5.6 million. This number increases to about $10.3 million if the transplant volume increases to 18 hearts in year 1 (meaning a subsequent increase of up to 21 hearts in year 5). If transplantation were limited to people who do not qualify for a ventricular assistive device or who qualify but do not wish to receive one, the total 5-year net budget impact would be about $7.9 million.People waiting for a heart transplant or who had received a heart transplant and family members of organ donors expressed no substantial concerns about the potential use of a portable normothermic cardiac perfusion system. They hope that it may increase the number of donor hearts available for transplant. For family members of organ donors, a perfusion system may provide comfort and value if it can increase the successful procurement of donor hearts.

Conclusions: Based on very low quality of evidence, the outcomes for recipients of DCD hearts preserved using a portable normothermic cardiac perfusion system appear to be similar to outcomes for recipients of NDD hearts. Owing to a lack of evidence relevant to the Ontario context, we were unable to determine whether a portable normothermic perfusion system may be cost-effective. We estimate that publicly funding a portable normothermic cardiac perfusion system for DCD heart transplantation over the next 5 years will cost about $5.6 million. The people we spoke with believe that the system may increase the number of hearts available for transplant and therefore increase the number of heart transplants that can be done.

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便携式常温心脏灌注系统在心脏循环死亡后捐献中的应用:健康技术评估》。
背景:对于生活质量和预期寿命都无法接受的终末期心力衰竭患者来说,心脏移植是最有效的治疗方法。然而,供体心脏长期短缺,无法满足需求,因此必须扩大供体库,增加供应。心脏捐献主要发生在脑死亡后(神经系统确定死亡[NDD]),但在心循环死亡后(心脏停止跳动,不再有血流或脉搏),只要使用专门的保存技术,心脏捐献也是可行的。一种研究性设备--便携式常温心脏灌注系统--可以使采购、保存和运输心循环死亡(DCD)后捐献的心脏成为可能。我们对便携式常温心脏灌流系统进行了卫生技术评估,该系统用于保存和运输用于成人移植的 DCD 心脏。其中包括对该系统的有效性、安全性、性价比和政府资助对预算的影响进行评估,以及对患者的偏好和价值观进行评估:我们对 1998 年以来发表的临床文献进行了系统性回顾,这些文献对用于 DCD 心脏移植的便携式常温心脏灌注系统的临床安全性和有效性进行了研究。我们根据建议评估、发展和评价分级(GRADE)工作组的标准评估了每项纳入研究的偏倚风险和证据的质量。我们还回顾了同期发表的经济学证据,与 NDD 心脏的冷藏相比,DCD 心脏的便携式常温心脏灌注系统具有成本效益。我们进一步估算了为安大略省等待名单上的成人 DCD 心脏移植手术提供常温心脏灌注系统公共资金的 5 年净预算影响。为了说明便携式常温心脏灌注系统的潜在价值,我们采访了等待心脏移植的人、接受过心脏移植的人以及器官捐献者的家属:我们筛选了 2,386 篇临床文献。结果:我们筛选了 2,386 篇临床引用文献,其中一篇研究和两篇病例报告符合纳入标准。通过便携式常温心脏灌注系统获得的 DCD 心脏的受者在 30 天或 90 天内的存活率与通过 NDD 捐赠的心脏的受者在 30 天或 90 天内的存活率没有显著差异,移植后 1 年的累积存活率也没有显著差异(GRADE:极低)。排斥反应和移植失败的发生率在各组之间也无明显差异(研究成果评估:极低)。DCD 心脏术后早期的心功能优于 NDD 心脏(GRADE:极低)。DCD 采集技术之间的结果没有差异。一份报告符合纳入标准,但并不直接适用于安大略省的情况。鉴于缺乏有关长期结果的临床和经济证据,我们没有进行主要经济评估。在预算影响分析中,根据过去 5 年中 40 岁以下 DCD 供体的数量,我们估计该技术增加的供体心脏可用性将导致第 1 年增加 7 例移植,第 5 年增加到 12 例。在未来 5 年中,为安大略省常温心脏灌注系统的 DCD 心脏移植提供公共资金的年度净预算影响为:第一年约为 200 万美元,第 2 年至第 5 年每年约为 90 万美元,总净预算影响约为 560 万美元。如果第 1 年的移植量增加到 18 个心脏(这意味着第 5 年的移植量将增加到 21 个心脏),这一数字将增加到约 1,030 万美元。如果移植仅限于不符合心室辅助装置条件或符合条件但不希望接受心室辅助装置的患者,则 5 年的净预算影响总额将约为 790 万美元。等待心脏移植或接受过心脏移植的患者以及器官捐献者的家属对便携式常温心脏灌注系统的潜在用途并无实质性担忧。他们希望该系统能增加可供移植的捐献心脏数量。对于器官捐献者的家属来说,如果灌流系统能提高捐献心脏的成功率,那么它可能会给他们带来安慰和价值:基于极低质量的证据,使用便携式常温心脏灌流系统保存的 DCD 心脏的受者的预后似乎与 NDD 心脏的受者的预后相似。由于缺乏与安大略省相关的证据,我们无法确定便携式常温灌注系统是否具有成本效益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Ontario Health Technology Assessment Series
Ontario Health Technology Assessment Series Medicine-Medicine (miscellaneous)
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