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2
Multiparametric Magnetic Resonance Imaging Before Prostate Biopsy: A Chain is Only as Strong as its Weakest Link.前列腺活检前的多参数磁共振成像:一链之强,取决于其最薄弱的环节。
Eur Urol. 2019 Jun;75(6):889-890. doi: 10.1016/j.eururo.2019.03.023. Epub 2019 Mar 29.
3
Assessment of the Diagnostic Accuracy of Biparametric Magnetic Resonance Imaging for Prostate Cancer in Biopsy-Naive Men: The Biparametric MRI for Detection of Prostate Cancer (BIDOC) Study.在未经活检的男性中,双参数磁共振成像对前列腺癌诊断准确性的评估:前列腺癌检测的双参数 MRI(BIDOC)研究。
JAMA Netw Open. 2018 Jun 1;1(2):e180219. doi: 10.1001/jamanetworkopen.2018.0219.
4
Head-to-head Comparison of Transrectal Ultrasound-guided Prostate Biopsy Versus Multiparametric Prostate Resonance Imaging with Subsequent Magnetic Resonance-guided Biopsy in Biopsy-naïve Men with Elevated Prostate-specific Antigen: A Large Prospective Multicenter Clinical Study.经直肠超声引导前列腺活检与多参数前列腺磁共振成像引导活检在前列腺特异性抗原升高的初次活检男性中的头对头比较:一项大型前瞻性多中心临床研究。
Eur Urol. 2019 Apr;75(4):570-578. doi: 10.1016/j.eururo.2018.11.023. Epub 2018 Nov 23.
5
Use of prostate systematic and targeted biopsy on the basis of multiparametric MRI in biopsy-naive patients (MRI-FIRST): a prospective, multicentre, paired diagnostic study.基于多参数 MRI 的前列腺系统和靶向活检在初次活检患者中的应用(MRI-FIRST):一项前瞻性、多中心、配对诊断研究。
Lancet Oncol. 2019 Jan;20(1):100-109. doi: 10.1016/S1470-2045(18)30569-2. Epub 2018 Nov 21.
6
Head-to-Head Comparison Between Biparametric and Multiparametric MRI for the Diagnosis of Prostate Cancer: A Systematic Review and Meta-Analysis.头对头比较双参数和多参数 MRI 诊断前列腺癌:系统评价和荟萃分析。
AJR Am J Roentgenol. 2018 Nov;211(5):W226-W241. doi: 10.2214/AJR.18.19880. Epub 2018 Sep 21.
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Pitfalls in interpreting positive and negative predictive values: Application to prostate multiparametric magnetic resonance imaging.解读阳性和阴性预测值时的陷阱:在前列腺多参数磁共振成像中的应用
Diagn Interv Imaging. 2018 Sep;99(9):515-518. doi: 10.1016/j.diii.2018.07.008. Epub 2018 Aug 31.
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Eur Urol. 2019 Feb;75(2):310-318. doi: 10.1016/j.eururo.2018.07.031. Epub 2018 Aug 3.
9
Multiparametric MRI to improve detection of prostate cancer compared with transrectal ultrasound-guided prostate biopsy alone: the PROMIS study.多参数 MRI 提高经直肠超声引导前列腺活检单独诊断前列腺癌的检出率:PROMIS 研究。
Health Technol Assess. 2018 Jul;22(39):1-176. doi: 10.3310/hta22390.
10
Accuracy of Transperineal Targeted Prostate Biopsies, Visual Estimation and Image Fusion in Men Needing Repeat Biopsy in the PICTURE Trial.经会阴靶向前列腺活检的准确性:PICTURE 试验中需要重复活检男性的视觉评估和图像融合。
J Urol. 2018 Dec;200(6):1227-1234. doi: 10.1016/j.juro.2018.07.001. Epub 2018 Jul 11.

用于检测前列腺癌的前列腺磁共振成像(MRI),无论是否进行MRI靶向活检及系统活检。

Prostate MRI, with or without MRI-targeted biopsy, and systematic biopsy for detecting prostate cancer.

作者信息

Drost Frank-Jan H, Osses Daniël F, Nieboer Daan, Steyerberg Ewout W, Bangma Chris H, Roobol Monique J, Schoots Ivo G

机构信息

Department of Radiology and Nuclear Medicine, Erasmus University Medical Center, 's-Gravendijkwal 230, Room NA-1710, P.O. Box 2040, Rotterdam, Zuid-Holland, Netherlands, 3015 CE.

出版信息

Cochrane Database Syst Rev. 2019 Apr 25;4(4):CD012663. doi: 10.1002/14651858.CD012663.pub2.

DOI:10.1002/14651858.CD012663.pub2
PMID:31022301
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6483565/
Abstract

BACKGROUND

Multiparametric magnetic resonance imaging (MRI), with or without MRI-targeted biopsy, is an alternative test to systematic transrectal ultrasonography-guided biopsy in men suspected of having prostate cancer. At present, evidence on which test to use is insufficient to inform detailed evidence-based decision-making.

OBJECTIVES

To determine the diagnostic accuracy of the index tests MRI only, MRI-targeted biopsy, the MRI pathway (MRI with or without MRI-targeted biopsy) and systematic biopsy as compared to template-guided biopsy as the reference standard in detecting clinically significant prostate cancer as the target condition, defined as International Society of Urological Pathology (ISUP) grade 2 or higher. Secondary target conditions were the detection of grade 1 and grade 3 or higher-grade prostate cancer, and a potential change in the number of biopsy procedures.

SEARCH METHODS

We performed a comprehensive systematic literature search up to 31 July 2018. We searched CENTRAL, MEDLINE, Embase, eight other databases and one trials register.

SELECTION CRITERIA

We considered for inclusion any cross-sectional study if it investigated one or more index tests verified by the reference standard, or if it investigated the agreement between the MRI pathway and systematic biopsy, both performed in the same men. We included only studies on men who were biopsy naïve or who previously had a negative biopsy (or a mix of both). Studies involving MRI had to report on both MRI-positive and MRI-negative men. All studies had to report on the primary target condition.

DATA COLLECTION AND ANALYSIS

Two reviewers independently extracted data and assessed the risk of bias using the QUADAS-2 tool. To estimate test accuracy, we calculated sensitivity and specificity using the bivariate model. To estimate agreement between the MRI pathway and systematic biopsy, we synthesised detection ratios by performing random-effects meta-analyses. To estimate the proportions of participants with prostate cancer detected by only one of the index tests, we used random-effects multinomial or binary logistic regression models. For the main comparisions, we assessed the certainty of evidence using GRADE.

MAIN RESULTS

The test accuracy analyses included 18 studies overall.MRI compared to template-guided biopsy: Based on a pooled sensitivity of 0.91 (95% confidence interval (CI): 0.83 to 0.95; 12 studies; low certainty of evidence) and a pooled specificity of 0.37 (95% CI: 0.29 to 0.46; 12 studies; low certainty of evidence) using a baseline prevalence of 30%, MRI may result in 273 (95% CI: 249 to 285) true positives, 441 false positives (95% CI: 378 to 497), 259 true negatives (95% CI: 203 to 322) and 27 (95% CI: 15 to 51) false negatives per 1000 men. We downgraded the certainty of evidence for study limitations and inconsistency.MRI-targeted biopsy compared to template-guided biopsy: Based on a pooled sensitivity of 0.80 (95% CI: 0.69 to 0.87; 8 studies; low certainty of evidence) and a pooled specificity of 0.94 (95% CI: 0.90 to 0.97; 8 studies; low certainty of evidence) using a baseline prevalence of 30%, MRI-targeted biopsy may result in 240 (95% CI: 207 to 261) true positives, 42 (95% CI: 21 to 70) false positives, 658 (95% CI: 630 to 679) true negatives and 60 (95% CI: 39 to 93) false negatives per 1000 men. We downgraded the certainty of evidence for study limitations and inconsistency.The MRI pathway compared to template-guided biopsy: Based on a pooled sensitivity of 0.72 (95% CI: 0.60 to 0.82; 8 studies; low certainty of evidence) and a pooled specificity of 0.96 (95% CI: 0.94 to 0.98; 8 studies; low certainty of evidence) using a baseline prevalence of 30%, the MRI pathway may result in 216 (95% CI: 180 to 246) true positives, 28 (95% CI: 14 to 42) false positives, 672 (95% CI: 658 to 686) true negatives and 84 (95% CI: 54 to 120) false negatives per 1000 men. We downgraded the certainty of evidence for study limitations, inconsistency and imprecision.Systemic biopsy compared to template-guided biopsy: Based on a pooled sensitivity of 0.63 (95% CI: 0.19 to 0.93; 4 studies; low certainty of evidence) and a pooled specificity of 1.00 (95% CI: 0.91 to 1.00; 4 studies; low certainty of evidence) using a baseline prevalence of 30%, systematic biopsy may result in 189 (95% CI: 57 to 279) true positives, 0 (95% CI: 0 to 63) false positives, 700 (95% CI: 637 to 700) true negatives and 111 (95% CI: 21 to 243) false negatives per 1000 men. We downgraded the certainty of evidence for study limitations and inconsistency.Agreement analyses: In a mixed population of both biopsy-naïve and prior-negative biopsy men comparing the MRI pathway to systematic biopsy, we found a pooled detection ratio of 1.12 (95% CI: 1.02 to 1.23; 25 studies). We found pooled detection ratios of 1.44 (95% CI 1.19 to 1.75; 10 studies) in prior-negative biopsy men and 1.05 (95% CI: 0.95 to 1.16; 20 studies) in biopsy-naïve men.

AUTHORS' CONCLUSIONS: Among the diagnostic strategies considered, the MRI pathway has the most favourable diagnostic accuracy in clinically significant prostate cancer detection. Compared to systematic biopsy, it increases the number of significant cancer detected while reducing the number of insignificant cancer diagnosed. The certainty in our findings was reduced by study limitations, specifically issues surrounding selection bias, as well as inconsistency. Based on these findings, further improvement of prostate cancer diagnostic pathways should be pursued.

摘要

背景

多参数磁共振成像(MRI),无论有无MRI靶向活检,都是怀疑患有前列腺癌的男性系统性经直肠超声引导活检的替代检测方法。目前,关于使用哪种检测方法的证据不足以支持详细的循证决策。

目的

以模板引导活检作为参考标准,确定仅MRI、MRI靶向活检、MRI途径(有无MRI靶向活检)和系统性活检等指标检测在检测临床显著前列腺癌(定义为国际泌尿病理学会(ISUP)2级或更高等级)这一目标疾病时的诊断准确性。次要目标疾病是检测1级和3级或更高等级的前列腺癌,以及活检程序数量的潜在变化。

检索方法

我们进行了全面的系统文献检索,截至2018年7月31日。我们检索了Cochrane中心对照试验注册库(CENTRAL)、医学期刊数据库(MEDLINE)、荷兰医学文摘数据库(Embase)、其他八个数据库和一个试验注册库。

选择标准

如果横断面研究调查了一项或多项经参考标准验证的指标检测,或者调查了在同一男性中进行的MRI途径与系统性活检之间的一致性,我们将其纳入。我们仅纳入了未进行过活检或之前活检结果为阴性(或两者皆有)的男性研究。涉及MRI的研究必须报告MRI阳性和MRI阴性男性的情况。所有研究都必须报告主要目标疾病情况。

数据收集与分析

两名评审员独立提取数据,并使用QUADAS-2工具评估偏倚风险。为了估计检测准确性,我们使用双变量模型计算敏感性和特异性。为了估计MRI途径与系统性活检之间的一致性,我们通过随机效应荟萃分析综合检测率。为了估计仅通过一种指标检测发现前列腺癌的参与者比例,我们使用随机效应多项或二元逻辑回归模型。对于主要比较,我们使用GRADE评估证据的确定性。

主要结果

检测准确性分析共纳入18项研究。

与模板引导活检相比,MRI:基于合并敏感性0.91(95%置信区间(CI):0.83至0.95;12项研究;证据确定性低)和合并特异性0.37(95%CI:0.29至0.46;12项研究;证据确定性低),使用30%的基线患病率,每1000名男性中,MRI可能导致273例(95%CI:249至285)真阳性、441例假阳性(95%CI:378至497)、259例真阴性(95%CI:203至322)和27例假阴性(95%CI:15至51)。由于研究局限性和不一致性,我们降低了证据的确定性。

与模板引导活检相比,MRI靶向活检:基于合并敏感性0.80(95%CI:0.69至0.87;8项研究;证据确定性低)和合并特异性0.94(95%CI:0.90至0.97;8项研究;证据确定性低),使用30%的基线患病率,每1000名男性中,MRI靶向活检可能导致240例(95%CI:207至261)真阳性、42例假阳性(95%CI:21至70)、658例真阴性(95%CI:630至679)和60例假阴性(95%CI:39至93)。由于研究局限性和不一致性,我们降低了证据的确定性。

与模板引导活检相比,MRI途径:基于合并敏感性0.72(95%CI:0.60至0.82;8项研究;证据确定性低)和合并特异性0.96(95%CI:0.94至0.98;8项研究;证据确定性低),使用30%的基线患病率,每1000名男性中,MRI途径可能导致216例(95%CI:180至246)真阳性、28例假阳性(95%CI:14至42)、672例真阴性(95%CI:658至686)和84例假阴性(95%CI:54至120)。由于研究局限性、不一致性和不精确性,我们降低了证据的确定性。

与模板引导活检相比,系统性活检:基于合并敏感性0.63(95%CI:0.19至0.93;4项研究;证据确定性低)和合并特异性1.00(95%CI:0.91至1.00;4项研究;证据确定性低),使用30%的基线患病率,每1000名男性中,系统性活检可能导致189例(95%CI:57至279)真阳性、0例假阳性(95%CI:0至63)、700例真阴性(95%CI:637至700)和111例假阴性(95%CI:21至243)。由于研究局限性和不一致性,我们降低了证据的确定性。

一致性分析

在未进行过活检和之前活检结果为阴性的男性混合人群中,比较MRI途径与系统性活检,我们发现合并检测率为1.12(95%CI:1.02至1.23;25项研究)。在之前活检结果为阴性的男性中,我们发现合并检测率为1.44(95%CI:1.19至1.75;10项研究);在未进行过活检的男性中,合并检测率为1.05(95%CI:0.95至1.16;20项研究)。

作者结论

在所考虑的诊断策略中,MRI途径在检测临床显著前列腺癌方面具有最有利的诊断准确性。与系统性活检相比,它增加了检测到的显著癌症数量,同时减少了诊断出的非显著癌症数量。我们的研究结果的确定性因研究局限性,特别是围绕选择偏倚的问题以及不一致性而降低。基于这些发现,应进一步改进前列腺癌诊断途径。