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Pulmonary artery perfusion versus no pulmonary perfusion during cardiopulmonary bypass in patients with COPD: a randomised clinical trial.肺静脉灌注与非肺静脉灌注在 COPD 患者心肺转流术中的随机临床试验。
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Ann Intensive Care. 2015 Dec;5(1):42. doi: 10.1186/s13613-015-0084-6. Epub 2015 Nov 19.
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Systematic Reviews of Anesthesiologic Interventions Reported as Statistically Significant: Problems with Power, Precision, and Type 1 Error Protection.报告具有统计学意义的麻醉学干预措施的系统评价:效能、精度和一类错误保护方面的问题。
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The influence of selective pulmonary perfusion on the inflammatory response and clinical outcome of patients with chronic obstructive pulmonary disease undergoing cardiopulmonary bypass.选择性肺灌注对慢性阻塞性肺疾病患者体外循环期间炎症反应及临床结局的影响
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成人心脏直视手术体外循环期间肺动脉灌注与非灌注的比较。

Pulmonary artery perfusion versus no perfusion during cardiopulmonary bypass for open heart surgery in adults.

作者信息

Buggeskov Katrine B, Grønlykke Lars, Risom Emilie C, Wei Mao Ling, Wetterslev Jørn

机构信息

Department of Thoracic Anaesthesiology, Copenhagen University Hospital, Rigshospitalet, Blegdamsvej 9, Copenhagen, Denmark, 2100.

出版信息

Cochrane Database Syst Rev. 2018 Feb 8;2(2):CD011098. doi: 10.1002/14651858.CD011098.pub2.

DOI:10.1002/14651858.CD011098.pub2
PMID:29419895
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6491280/
Abstract

BACKGROUND

Available evidence has been inconclusive on whether pulmonary artery perfusion during cardiopulmonary bypass (CPB) is associated with decreased or increased mortality, pulmonary events, and serious adverse events (SAEs) after open heart surgery. To our knowledge, no previous systematic reviews have included meta-analyses of these interventions.

OBJECTIVES

To assess the benefits and harms of single-shot or continuous pulmonary artery perfusion with blood (oxygenated or deoxygenated) or a preservation solution compared with no perfusion during cardiopulmonary bypass (CPB) in terms of mortality, pulmonary events, serious adverse events (SAEs), and increased inflammatory markers for adult surgical patients.

SEARCH METHODS

We searched the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE, Embase, Science Citation Index Expanded, and advanced Google for relevant studies. We handsearched retrieved study reports and scanned citations of included studies and relevant reviews to ensure that no relevant trials were missed. We searched for ongoing trials and unpublished trials in the World Health Organization International Clinical Trials Registry Platform (ICTRP) and at clinicaltrials.gov (4 July 2017). We contacted medicinal firms producing preservation solutions to retrieve additional studies conducted to examine relevant interventions.

SELECTION CRITERIA

We included randomized controlled trials (RCTs) that compared pulmonary artery perfusion versus no perfusion during CPB in adult patients (≧ 18 years).

DATA COLLECTION AND ANALYSIS

Two independent review authors extracted data, conducted fixed-effect and random-effects meta-analyses, and calculated risk ratios (RRs) or odds ratios (ORs) for dichotomous outcomes. For continuous data, we have presented mean differences (MDs) and 95% confidence intervals (CIs) as estimates of the intervention effect. To minimize the risk of systematic error, we assessed risk of bias of included trials. To reduce the risk of random errors caused by sparse data and repetitive updating of cumulative meta-analyses, we applied Trial Sequential Analyses (TSAs). We used GRADE principles to assess the quality of evidence.

MAIN RESULTS

We included in this review four RCTs (210 participants) reporting relevant outcomes. Investigators randomly assigned participants to pulmonary artery perfusion with blood versus no perfusion during CPB. Only one trial included the pulmonary artery perfusion intervention with a preservation solution; therefore we did not perform meta-analysis. Likewise, only one trial reported patient-specific data for the outcome "pulmonary events"; therefore we have provided no results from meta-analysis. Instead, review authors added two explorative secondary outcomes for this version of the review: the ratio of partial pressure of oxygen in arterial blood (PaO) to fraction of inspired oxygen (FiO); and intubation time. Last, review authors found no comparable data for the secondary outcome inflammatory markers.The effect of pulmonary artery perfusion on all-cause mortality was uncertain (Peto OR 1.78, 95% CI 0.43 to 7.40; TSA adjusted CI 0.01 to 493; 4 studies, 210 participants; GRADE: very low quality). Sensitivity analysis of one trial with overall low risk of bias (except for blinding of personnel during the surgical procedure) yielded no evidence of a difference for mortality (Peto OR 1.65, 95% CI 0.27 to 10.15; 1 study, 60 participants). The TSA calculated required information size was not reached and the futility boundaries did not cross; thus this analysis cannot refute a 100% increase in mortality.The effect of pulmonary artery perfusion with blood on SAEs was likewise uncertain (RR 1.12, 95% CI 0.66 to 1.89; 3 studies, 180 participants; GRADE: very low quality). Data show an association between pulmonary artery perfusion with blood during CPB and a higher postoperative PaO/FiO ratio (MD 27.80, 95% CI 5.67 to 49.93; 3 studies, 119 participants; TSA adjusted CI 5.67 to 49.93; GRADE: very low quality), although TSA could not confirm or refute a 10% increase in the PaO/FiO ratio, as the required information size was not reached.

AUTHORS' CONCLUSIONS: The effects of pulmonary artery perfusion with blood during cardiopulmonary bypass (CPB) are uncertain owing to the small numbers of participants included in meta-analyses. Risks of death and serious adverse events may be higher with pulmonary artery perfusion with blood during CPB, and robust evidence for any beneficial effects is lacking. Future randomized controlled trials (RCTs) should provide long-term follow-up and patient stratification by preoperative lung function and other documented risk factors for mortality. One study that is awaiting classification (epub abstract with preliminary results) may change the results of this review when full study details have been published.

摘要

背景

关于体外循环(CPB)期间肺动脉灌注与心脏直视手术后死亡率降低或升高、肺部事件及严重不良事件(SAE)之间的关系,现有证据尚无定论。据我们所知,此前尚无系统评价纳入这些干预措施的荟萃分析。

目的

评估在成人手术患者中,与CPB期间不进行灌注相比,单次或持续肺动脉灌注血液(氧合或脱氧)或保存液在死亡率、肺部事件、严重不良事件(SAE)以及炎症标志物升高方面的利弊。

检索方法

我们检索了Cochrane对照试验中心注册库(CENTRAL)、MEDLINE、Embase、科学引文索引扩展版以及谷歌学术搜索相关研究。我们手工检索了检索到的研究报告,并浏览了纳入研究及相关综述的参考文献,以确保未遗漏任何相关试验。我们在世界卫生组织国际临床试验注册平台(ICTRP)和clinicaltrials.gov(2017年7月4日)上搜索了正在进行的试验和未发表的试验。我们联系了生产保存液的医药公司,以获取为检验相关干预措施而进行的其他研究。

选择标准

我们纳入了比较成人患者(≥18岁)CPB期间肺动脉灌注与不灌注的随机对照试验(RCT)。

数据收集与分析

两名独立的综述作者提取数据,进行固定效应和随机效应荟萃分析,并计算二分结局的风险比(RR)或比值比(OR)。对于连续性数据,我们给出了平均差(MD)和95%置信区间(CI)作为干预效果的估计值。为尽量减少系统误差风险,我们评估了纳入试验的偏倚风险。为降低因数据稀疏和累积荟萃分析重复更新导致的随机误差风险,我们应用了序贯试验分析(TSA)。我们使用GRADE原则评估证据质量。

主要结果

本综述纳入了4项报告相关结局的RCT(210名参与者)。研究者将参与者随机分配至CPB期间肺动脉灌注血液与不灌注组。仅有1项试验纳入了使用保存液的肺动脉灌注干预措施;因此我们未进行荟萃分析。同样,仅有1项试验报告了“肺部事件”结局的患者个体数据;因此我们未提供荟萃分析结果。相反,综述作者为本版综述增加了两个探索性次要结局:动脉血氧分压(PaO)与吸入氧分数(FiO)之比;以及插管时间。最后,综述作者未找到炎症标志物次要结局的可比数据。肺动脉灌注对全因死亡率的影响尚不确定(Peto OR 1.78,95%CI 0.43至7.40;TSA调整后CI 0.01至493;4项研究,210名参与者;GRADE:极低质量)。对1项总体偏倚风险较低(手术过程中人员未设盲除外)的试验进行敏感性分析,未发现死亡率存在差异的证据(Peto OR 1.65,95%CI 0.27至10.15;1项研究,60名参与者)。TSA计算得出的所需信息量未达到,且无效边界未跨越;因此该分析不能排除死亡率增加100%的可能性。CPB期间肺动脉灌注血液对SAE的影响同样不确定(RR 1.12,95%CI 0.66至1.89;3项研究,180名参与者;GRADE:极低质量)。数据显示CPB期间肺动脉灌注血液与术后较高的PaO/FiO比值相关(MD 27.80,95%CI 5.67至49.93;3项研究,119名参与者;TSA调整后CI 5.67至49.93;GRADE:极低质量),尽管由于未达到所需信息量,TSA无法证实或排除PaO/FiO比值增加10%的可能性。

作者结论

由于荟萃分析纳入的参与者数量较少,CPB期间肺动脉灌注血液的影响尚不确定。CPB期间肺动脉灌注血液可能导致死亡和严重不良事件风险升高,且缺乏任何有益效果的有力证据。未来的随机对照试验(RCT)应提供长期随访,并根据术前肺功能及其他记录在案的死亡风险因素对患者进行分层。一项正在等待分类的研究(带有初步结果的 epub 摘要)在发表完整研究细节后可能会改变本综述的结果。