降钙素原和 C 反应蛋白预测发热婴幼儿侵袭性和严重细菌感染的诊断准确性：系统评价和荟萃分析。

Diagnostic test accuracy of procalcitonin and C-reactive protein for predicting invasive and serious bacterial infections in young febrile infants: a systematic review and meta-analysis.

机构信息

Wellcome-Wolfson Institute for Experimental Medicine, Queen's University Belfast, Belfast, UK.

出版信息

Lancet Child Adolesc Health. 2024 May;8(5):358-368. doi: 10.1016/S2352-4642(24)00021-X. Epub 2024 Mar 16.

DOI:10.1016/S2352-4642(24)00021-X

PMID:38499017

Abstract

BACKGROUND

Febrile infants presenting in the first 90 days of life are at higher risk of invasive and serious bacterial infections than older children. Modern clinical practice guidelines, mostly using procalcitonin as a diagnostic biomarker, can identify infants who are at low risk and therefore suitable for tailored management. C-reactive protein, by comparison, is widely available, but whether C-reactive protein and procalcitonin have similar diagnostic accuracy is unclear. We aimed to compare the test accuracy of procalcitonin and C-reactive protein in the prediction of invasive or serious bacterial infections in febrile infants.

METHODS

For this systematic review and meta-analysis, we searched MEDLINE, EMBASE, Web of Science, and The Cochrane Library for diagnostic test accuracy studies up to June 19, 2023, using MeSH terms "procalcitonin", and "bacterial infection" or "fever" and keywords "invasive bacterial infection*" and "serious bacterial infection*", without language or date restrictions. Studies were selected by independent authors against eligibility criteria. Eligible studies included participants aged 90 days or younger presenting to hospital with a fever (≥38°C) or history of fever within the preceding 48 h. The primary index test was procalcitonin, and the secondary index test was C-reactive protein. Test kits had to be commercially available, and test samples had to be collected upon presentation to hospital. Invasive bacterial infection was defined as the presence of a bacterial pathogen in blood or cerebrospinal fluid, as detected by culture or quantitative PCR; authors' definitions of serious bacterial infection were used. Data were extracted from selected studies, and the detection of invasive or serious bacterial infections was analysed with two models for each biomarker. Diagnostic accuracy was determined against internationally recognised cutoff values (0·5 ng/mL for procalcitonin, 20 mg/L for C-reactive protein) and pooled to calculate partial area under the curve (pAUC) values for each biomarker. Optimum cutoff values were identified for each biomarker. This study is registered with PROSPERO, CRD42022293284.

FINDINGS

Of 734 studies derived from the literature search, 14 studies (n=7755) were included in the meta-analysis. For the detection of invasive bacterial infections, pAUC values were greater for procalcitonin (0·72, 95% CI 0·56-0·79) than C-reactive protein (0·28, 0·17-0·61; p=0·016). Optimal cutoffs for detecting invasive bacterial infections were 0·49 ng/mL for procalcitonin and 13·12 mg/L for C-reactive protein. For the detection of serious bacterial infections, procalcitonin and C-reactive protein had similar pAUC values (0·55, 0·44-0·69 vs 0·54, 0·40-0·61; p=0·92). For serious bacterial infections, the optimal cutoffs for procalcitonin and C-reactive protein were 0·17 ng/mL and 16·18 mg/L, respectively. Heterogeneity was low for studies investigating the test accuracy of procalcitonin in detecting invasive bacterial infection (I=23·5%), high for studies investigating procalcitonin for serious bacterial infection (I=75·5%), and moderate for studies investigating C-reactive protein for invasive bacterial infection (I=49·5%) and serious bacterial infection (I=28·3%). The absence of a single definition of serious bacterial infection across studies was the greatest source of interstudy variability and potential bias.

INTERPRETATION

Within a large cohort of febrile infants, a procalcitonin cutoff of 0·5 ng/mL had a superior pAUC value to a C-reactive protein cutoff of 20 mg/L for identifying invasive bacterial infections. In settings without access to procalcitonin, C-reactive protein should therefore be used cautiously for the identification of invasive bacterial infections, and a cutoff value below 20 mg/L should be considered. C-reactive protein and procalcitonin showed similar test accuracy for the identification of serious bacterial infection with internationally recognised cutoff values. This might reflect the challenges involved in confirming serious bacterial infection and the absence of a universally accepted definition of serious bacterial infection.

FUNDING

None.

摘要

背景

与年长儿童相比，90 天以内出现发热的婴儿发生侵袭性和严重细菌感染的风险更高。现代临床实践指南主要使用降钙素原作为诊断生物标志物，可以识别出风险较低、适合量身定制管理的婴儿。相比之下，C 反应蛋白广泛可用，但降钙素原和 C 反应蛋白的诊断准确性是否相似尚不清楚。我们旨在比较降钙素原和 C 反应蛋白在预测发热婴儿侵袭性或严重细菌感染中的检测准确性。

方法

本系统评价和荟萃分析中，我们检索了 MEDLINE、EMBASE、Web of Science 和 The Cochrane Library，截至 2023 年 6 月 19 日，使用了 MeSH 术语“降钙素原”和“细菌感染”或“发热”以及关键词“侵袭性细菌感染”和“严重细菌感染”，没有语言或日期限制。研究由独立作者根据纳入标准进行选择。符合条件的研究包括年龄在 90 天或以下、因发热（≥38°C）或在 48 小时内有发热史而到医院就诊的患者。主要的检测指标是降钙素原，次要的检测指标是 C 反应蛋白。检测试剂盒必须是商业上可获得的，检测样本必须在到医院就诊时采集。侵袭性细菌感染的定义是血液或脑脊液中存在细菌病原体，通过培养或定量 PCR 检测到；作者使用的严重细菌感染的定义。从选定的研究中提取数据，并使用两种模型分析每种生物标志物的检测结果。根据国际公认的临界值（降钙素原 0·5ng/ml，C 反应蛋白 20mg/L）对侵袭性或严重细菌感染的检测进行分析，并计算每个生物标志物的部分曲线下面积（pAUC）值。确定了每个生物标志物的最佳临界值。本研究在 PROSPERO 上注册，CRD42022293284。

结果

从文献检索中得出的 734 项研究中，有 14 项研究（n=7755）纳入了荟萃分析。对于侵袭性细菌感染的检测，降钙素原的 pAUC 值（0·72，0·56-0·79）大于 C 反应蛋白（0·28，0·17-0·61；p=0·016）。检测侵袭性细菌感染的最佳临界值为降钙素原 0·49ng/ml，C 反应蛋白 13·12mg/L。对于严重细菌感染的检测，降钙素原和 C 反应蛋白的 pAUC 值相似（0·55，0·44-0·69 与 0·54，0·40-0·61；p=0·92）。对于严重细菌感染，降钙素原和 C 反应蛋白的最佳临界值分别为 0·17ng/ml 和 16·18mg/L。降钙素原检测侵袭性细菌感染的研究中异质性较低（I=23·5%），降钙素原检测严重细菌感染的研究中异质性较高（I=75·5%），C 反应蛋白检测侵袭性细菌感染和严重细菌感染的研究中异质性均为中度（I=49·5% 和 I=28·3%）。研究之间最大的变异性和潜在偏倚来源是严重细菌感染的研究中缺乏单一的严重细菌感染定义。

解释

在一个大型发热婴儿队列中，降钙素原临界值为 0·5ng/ml 时，与 C 反应蛋白临界值为 20mg/L 相比，其在识别侵袭性细菌感染方面的 pAUC 值更高。在无法获得降钙素原的情况下，因此应谨慎使用 C 反应蛋白来识别侵袭性细菌感染，并且应考虑临界值低于 20mg/L。C 反应蛋白和降钙素原在使用国际公认的临界值识别严重细菌感染方面具有相似的检测准确性。这可能反映了确认严重细菌感染的挑战以及严重细菌感染缺乏普遍接受的定义。