合成磁共振成像在诊断和评估前列腺癌侵袭性中的价值。

IF 2.9 2区 医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Quantitative Imaging in Medicine and Surgery Pub Date : 2024-08-01 Epub Date: 2024-07-09 DOI:10.21037/qims-24-291
Zhongxiu Gao, Xinchen Xu, Han Sun, Tiannv Li, Wei Ding, Ying Duan, Lijun Tang, Yingying Gu
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引用次数: 0

摘要

背景:合成磁共振成像(SyMRI)是一种快速、标准化和稳健的新型定量技术,有望规避前列腺多参数磁共振成像(mpMRI)中解释的主观性和现有磁共振成像定量技术的局限性。我们的研究旨在评估 SyMRI 在前列腺癌(PCA)诊断和侵袭性评估中的潜在作用:我们对 309 例疑似 PCA 患者进行了回顾性分析,这些患者接受了 mpMRI 和 SyMRI 检查,并通过活检或 PCA 根治性前列腺切除术(RP)获得了病理结果。病理类型分为 PCA、良性前列腺增生(BPH)或外周区炎症(PZ)。根据格里森评分(GS),PCA分为中高风险组(GS≥4+3)和低风险组(GS≤3+4)。根据 RP 结果的 GS 变化,将活检证实为低风险 PCA 的患者进一步分为升级组和非升级组。由两名医生在ADC和SyMRI参数图上测量这些病变的表观弥散系数(ADC)、T1、T2和质子密度(PD)值;比较PCA与良性前列腺增生或炎症之间、中高危组与低危组之间以及升级组与未升级组之间的这些值。通过单变量分析确定了影响 GS 分级的风险因素。通过多变量逻辑回归分析排除混杂因素的影响,并计算出独立的预测因素。随后,通过数据处理分析,构建了预测PCA风险分级或GS升级的ADC+Sy(T2+PD)联合模型。分析了各参数和 ADC+Sy(T2+PD)模型的诊断性能。校准曲线通过引导内部验证法(200个引导重采样)计算得出:在PZ或过渡区,PCA的T1、T2和PD值均明显低于BPH或炎症(P≤0.001)。在178例PCA患者中,中高危PCA组的T1、T2和PD值明显高于低危组,但ADC值低于低危组(P0.05)。ADC+Sy(T2+PD) 模型表现最佳,曲线下面积 (AUC) 为 0.110 [AUC =0.818;95% 置信区间 (CI):0.754-0.872],高于单独 ADC 模型(AUC =0.708;95% CI:0.635-0.774)(P=0.003)。在活检初步归类为低风险组 PCA 的 68 例患者中,术后升级 GS 组 PCA 的 T1、T2 和 PD 值显著高于非升级组,但 ADC 值低于非升级组(PConclusions:通过 SyMRI 得出的定量参数(T1、T2 和 PD)有助于区分 PCA 和非 PCA。将 SyMRI 参数与 ADC 相结合可显著提高中高风险 PCA 与低风险 PCA 的鉴别能力,并可预测经活检证实的低风险 PCA 的升级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The value of synthetic magnetic resonance imaging in the diagnosis and assessment of prostate cancer aggressiveness.

Background: Synthetic magnetic resonance imaging (SyMRI) is a fast, standardized, and robust novel quantitative technique that has the potential to circumvent the subjectivity of interpretation in prostate multiparametric magnetic resonance imaging (mpMRI) and the limitations of existing MRI quantification techniques. Our study aimed to evaluate the potential utility of SyMRI in the diagnosis and aggressiveness assessment of prostate cancer (PCA).

Methods: We retrospectively analyzed 309 patients with suspected PCA who had undergone mpMRI and SyMRI, and pathologic results were obtained by biopsy or PCA radical prostatectomy (RP). Pathological types were classified as PCA, benign prostatic hyperplasia (BPH), or peripheral zone (PZ) inflammation. According to the Gleason Score (GS), PCA was divided into groups of intermediate-to-high risk (GS ≥4+3) and low-risk (GS ≤3+4). Patients with biopsy-confirmed low-risk PCA were further divided into upgraded and nonupgraded groups based on the GS changes of the RP results. The values of the apparent diffusion coefficient (ADC), T1, T2 and proton density (PD) of these lesions were measured on ADC and SyMRI parameter maps by two physicians; these values were compared between PCA and BPH or inflammation, between the intermediate-to-high-risk and low-risk PCA groups, and between the upgraded and nonupgraded PCA groups. The risk factors affecting GS grades were identified via univariate analysis. The effects of confounding factors were excluded through multivariate logistic regression analysis, and independent predictive factors were calculated. Subsequently, the ADC+Sy(T2+PD) combined models for predicting PCA risk grade or GS upgrade were constructed through data processing analysis. The diagnostic performance of each parameter and the ADC+Sy(T2+PD) model was analyzed. The calibration curve was calculated by the bootstrapping internal validation method (200 bootstrap resamples).

Results: The T1, T2, and PD values of PCA were significantly lower than those of BPH or inflammation (P≤0.001) in both the PZ or transitional zone. Among the 178 patients with PCA, intermediate-to-high-risk PCA group had significantly higher T1, T2, and PD values but lower ADC values compared with the low-risk group (P<0.05), and the diagnostic efficacy of each single parameter was similar (P>0.05). The ADC+Sy(T2+PD) model showed the best performance, with an area under the curve (AUC) 0.110 [AUC =0.818; 95% confidence interval (CI): 0.754-0.872] higher than that of ADC alone (AUC =0.708; 95% CI: 0.635-0.774) (P=0.003). Among the 68 patients initially classified as PCA in the low-risk group by biopsy, PCA in the postoperative upgraded GS group had significantly higher T1, T2, and PD values but lower ADC values than did those in the nonupgraded group (P<0.01). In addition, the ADC+Sy(T2+PD) model better predicted the upgrade of GS, with a significant increase in AUC of 0.204 (AUC =0.947; 95% CI: 0.864-0.987) compared with ADC alone (AUC =0.743; 95% CI: 0.622-0.841) (P<0.001).

Conclusions: Quantitative parameters (T1, T2, and PD) derived from SyMRI can help differentiate PCA from non-PCA. Combining SyMRI parameters with ADC significantly improved the ability to differentiate between intermediate-to-high risk PCA from low-risk PCA and could predict the upgrade of low-risk PCA as confirmed by biopsy.

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来源期刊
Quantitative Imaging in Medicine and Surgery
Quantitative Imaging in Medicine and Surgery Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
4.20
自引率
17.90%
发文量
252
期刊介绍: Information not localized
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