Arthur Lauren E, Kizor Russell S, Selim Adrian G, van Driel Mieke L, Seoane Leonardo
Ochsner Clinical School, School of Medicine, University of Queensland, New Orleans, LA, USA.
Cochrane Database Syst Rev. 2016 Oct 20;10(10):CD004267. doi: 10.1002/14651858.CD004267.pub4.
Ventilator-associated pneumonia (VAP) is a significant cause of morbidity and mortality, complicating the medical course of approximately 10% of mechanically-ventilated patients, with an estimated attributable mortality of 13%. To treat VAP empirically, the American Thoracic Society currently recommends antibiotic therapy based on the patients' risk of colonisation by an organism with multidrug resistance. The selection of initial antibiotic therapy in VAP is important, as inappropriate initial antimicrobial treatment is associated with higher mortality and longer hospital stay in intensive care unit (ICU) patients.While guidelines exist for the antibiotic treatment of hospital-acquired pneumonia (HAP) from the American Thoracic Society and the British Society for Antimicrobial Chemotherapy, there are many limitations in the quality of available evidence. This systematic review aimed to summarise the results of all randomised controlled trials (RCTs) that compare empirical antibiotic regimens for VAP.
The primary objective of this review was to assess the effect of different empirical antimicrobial therapies on the survival and clinical cure of adult patients with ventilator-associated pneumonia (VAP). Secondary objectives included reporting the incidence of adverse events, new superinfections, length of hospital stay, and length of intensive care unit (ICU) stay associated with these therapies.
We searched the Cochrane Central Register of Controlled Trials (CENTRAL), MEDLINE, Embase, LILACS, CINAHL and Web of Science to December 2015; we searched ClinicalTrials.gov to September 2016.
Two review authors independently assessed RCTs comparing empirical antibiotic treatments of VAP in adult patients, where VAP was defined as new-onset pneumonia that developed more than 48 hours after endotracheal intubation. Physicians and researchers were not required to be blinded for inclusion in this review.
Two review authors independently extracted study data. We pooled studies and analysed them in two ways. We examined monotherapy, or a single experimental antimicrobial drug, versus combination therapy, or multiple experimental antimicrobial drugs. We also examined carbapenem therapy versus non-carbapenem therapy.
We included 12 studies with 3571 participants. All included studies examined the empiric use of one antimicrobial regimen versus another for the treatment of adults with VAP, but the particular drug regimens examined by each study varied. There was potential for bias because some studies did not report outcomes for all participants. All but one study reported sources of funding or author affiliations with pharmaceutical companies.We found no statistical difference in all-cause mortality between monotherapy and combination therapy (N = 4; odds ratio (OR) monotherapy versus combination 0.97, 95% confidence interval (CI) 0.73 to 1.30), clinical cure (N = 2; OR monotherapy versus combination 0.88, 95% CI 0.56 to 1.36), length of stay in ICU (mean difference (MD) 0.65, 95% CI 0.07 to 1.23) or adverse events (N = 2; OR monotherapy versus combination 0.93, 95% CI 0.68 to 1.26). We downgraded the quality of evidence for all-cause mortality, adverse events, and length of ICU stay to moderate for this comparison. We determined clinical cure for this comparison to be of very low-quality evidence.For our second comparison of combination therapy with optional adjunctives only one meta-analysis could be performed due to a lack of trials comparing the same antibiotic regimens. Two studies compared tigecycline versus imipenem-cilastatin for clinical cure in the clinically evaluable population and there was a statistically significant increase in clinical cure for imipenem-cilastatin (N = 2; OR tigecycline versus imipenem-cilastatin 0.44, 95% CI 0.23 to 0.84). Of importance, this effect was due to a single study.We found no statistical difference in all-cause mortality between carbapenem and non-carbapenem therapies (N = 1; OR carbapenem versus non-carbapenem 0.59, 95% CI 0.30 to 1.19) or adverse events (N = 3; OR carbapenem versus non-carbapenem 0.78, 95% CI 0.56 to 1.09), but we found that carbapenems are associated with a statistically significant increase in the clinical cure (N = 3; OR carbapenem versus non-carbapenem 1.53, 95% CI 1.11 to 2.12 for intention-to-treat (ITT) analysis and N = 2; OR carbapenem versus non-carbapenem 2.29, 95% CI 1.19 to 4.43 for clinically evaluable patients analysis). For this comparison we downgraded the quality of evidence for mortality, and clinical cure (ITT and clinically evaluable populations) to moderate. We determined the quality of evidence for adverse events to be low.
AUTHORS' CONCLUSIONS: We did not find a difference between monotherapy and combination therapy for the treatment of people with VAP. Since studies did not identify patients with increased risk for multidrug-resistant bacteria, these data may not be generalisable to all patient groups. However, this is the largest meta-analysis comparing monotherapy to multiple antibiotic therapies for VAP and contributes further evidence to the safety of using effective monotherapy for the empiric treatment of VAP.Due to lack of studies, we could not evaluate the best antibiotic choice for VAP, but carbapenems as a class may result in better clinical cure than other tested antibiotics.
呼吸机相关性肺炎(VAP)是发病和死亡的重要原因,约10%的机械通气患者会出现病情复杂化,估计归因死亡率为13%。为经验性治疗VAP,美国胸科学会目前建议根据患者被多重耐药菌定植的风险进行抗生素治疗。VAP初始抗生素治疗的选择很重要,因为不恰当的初始抗菌治疗与重症监护病房(ICU)患者更高的死亡率和更长的住院时间相关。虽然美国胸科学会和英国抗菌化疗协会针对医院获得性肺炎(HAP)的抗生素治疗制定了指南,但现有证据质量存在诸多局限性。本系统评价旨在总结所有比较VAP经验性抗生素治疗方案的随机对照试验(RCT)结果。
本评价的主要目的是评估不同经验性抗菌治疗对成人呼吸机相关性肺炎(VAP)患者生存和临床治愈的影响。次要目的包括报告与这些治疗相关的不良事件、新的二重感染、住院时间和重症监护病房(ICU)住院时间的发生率。
我们检索了截至2015年12月的Cochrane对照试验中心注册库(CENTRAL)、MEDLINE、Embase、LILACS、CINAHL和科学引文索引;检索了截至2016年9月的ClinicalTrials.gov。
两名评价作者独立评估比较成人患者VAP经验性抗生素治疗的RCT,其中VAP定义为气管插管后48小时以上发生的新发肺炎。本评价纳入研究时不要求医生和研究人员设盲。
两名评价作者独立提取研究数据。我们汇总研究并采用两种方式进行分析。我们比较了单药治疗(即单一试验性抗菌药物)与联合治疗(即多种试验性抗菌药物)。我们还比较了碳青霉烯类治疗与非碳青霉烯类治疗。
我们纳入了12项研究,共3571名参与者。所有纳入研究均探讨了一种抗菌治疗方案与另一种方案在治疗成人VAP中的经验性应用,但每项研究所检测的具体药物方案各不相同。由于一些研究未报告所有参与者的结局,存在偏倚的可能性。除一项研究外,所有研究均报告了资金来源或与制药公司的作者隶属关系。我们发现单药治疗与联合治疗在全因死亡率(N = 4;单药治疗与联合治疗的比值比(OR)为0.97,95%置信区间(CI)为0.73至1.30)、临床治愈率(N = 2;单药治疗与联合治疗的OR为0.88,95%CI为0.56至1.36)、ICU住院时间(平均差(MD)为0.65,95%CI为0.07至1.23)或不良事件(N = 2;单药治疗与联合治疗的OR为0.93,95%CI为0.68至1.26)方面无统计学差异。对于该比较,我们将全因死亡率、不良事件和ICU住院时间的证据质量降为中等。我们确定该比较的临床治愈率证据质量极低。对于我们的第二项比较,即联合治疗与仅使用可选辅助药物的比较,由于缺乏比较相同抗生素方案的试验,仅能进行一项荟萃分析。两项研究比较了替加环素与亚胺培南 - 西司他丁在临床可评估人群中的临床治愈率,亚胺培南 - 西司他丁的临床治愈率有统计学显著提高(N = 2;替加环素与亚胺培南 - 西司他丁的OR为0.44,95%CI为0.23至0.84)。重要的是,这种效果仅归因于一项研究。我们发现碳青霉烯类治疗与非碳青霉烯类治疗在全因死亡率(N = 1;碳青霉烯类与非碳青霉烯类的OR为0.59,95%CI为0.30至1.19)或不良事件(N = 3;碳青霉烯类与非碳青霉烯类的OR为0.78,95%CI为0.56至1.09)方面无统计学差异,但我们发现碳青霉烯类与临床治愈率的统计学显著提高相关(意向性分析(ITT)中N = 3;碳青霉烯类与非碳青霉烯类的OR为1.53,95%CI为1.11至2.12;临床可评估患者分析中N = 2;碳青霉烯类与非碳青霉烯类的OR为2.29,95%CI为1.19至4.43)。对于该比较,我们将死亡率以及临床治愈率(ITT和临床可评估人群)的证据质量降为中等。我们确定不良事件的证据质量为低。
我们未发现单药治疗与联合治疗在治疗VAP患者方面存在差异。由于研究未识别出多重耐药菌感染风险增加的患者,这些数据可能不适用于所有患者群体。然而,这是比较VAP单药治疗与多种抗生素治疗的最大规模荟萃分析,为使用有效的单药经验性治疗VAP的安全性提供了进一步证据。由于缺乏研究,我们无法评估VAP的最佳抗生素选择,但作为一类药物,碳青霉烯类可能比其他受试抗生素产生更好的临床治愈率。