Enhancing the diagnostic capacity of [¹⁸F]PSMA-1007 PET/MRI in primary prostate cancer staging with artificial intelligence and semi-quantitative DCE: an exploratory study.

EJNMMI reports Pub Date : 2024-11-08 DOI:10.1186/s41824-024-00225-5

Philip Alexander Glemser, Martin Freitag, Balint Kovacs, Nils Netzer, Antonia Dimitrakopoulou-Strauss, Uwe Haberkorn, Klaus Maier-Hein, Constantin Schwab, Stefan Duensing, Bettina Beuthien-Baumann, Heinz-Peter Schlemmer, David Bonekamp, Frederik Giesel, Christos Sachpekidis

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Abstract

Background: To investigate the ability of artificial intelligence (AI)-based and semi-quantitative dynamic contrast enhanced (DCE) multiparametric MRI (mpMRI), performed within [¹⁸F]-PSMA-1007 PET/MRI, in differentiating benign from malignant prostate tissues in patients with primary prostate cancer (PC).

Results: A total of seven patients underwent whole-body [¹⁸F]-PSMA-1007 PET/MRI examinations including a pelvic mpMRI protocol with T2w, diffusion weighted imaging (DWI) and DCE image series. Conventional analysis included visual reading of PET/MRI images and Prostate Imaging Reporting & Data System (PI-RADS) scoring of the prostate. On the prostate level, we performed manual segmentations for time-intensity curve parameter formation and semi-quantitative analysis based on DCE segmentation data of PC-suspicious lesions. Moreover, we applied a recently introduced deep learning (DL) pipeline previously trained on 1010 independent MRI examinations with systematic biopsy-enhanced histopathological targeted biopsy lesion ground truth in order to perform AI-based lesion detection, prostate segmentation and derivation of a deep learning PI-RADS score. DICE coefficients between manual and automatic DL-acquired segmentations were compared. On patient-based analysis, PET/MRI revealed PC-suspicious lesions in the prostate gland in 6/7 patients (Gleason Score-GS ≥ 7b) that were histologically confirmed. Four of these patients also showed lymph node metastases, while two of them had bone metastases. One patient with GS 6 showed no PC-suspicious lesions. Based on DCE segmentations, a distinction between PC-suspicious and normal appearing tissue was feasible with the parameters fitted maximum contrast ratio (FMCR) and wash-in-slope. DICE coefficients (manual vs. deep learning) were comparable with literature values at a mean of 0.44. Further, the DL pipeline could identify the intraprostatic PC-suspicious lesions in all six patients with clinically significant PC.

Conclusion: Firstly, semi-quantitative DCE analysis based on manual segmentations of time-intensity curves was able to distinguish benign from malignant tissues. Moreover, DL analysis of the MRI data could detect clinically significant PC in all cases, demonstrating the feasibility of AI-supported approaches in increasing diagnostic certainty of PSMA-radioligand PET/MRI.

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利用人工智能和半定量 DCE 提高[18F]PSMA-1007 PET/MRI 在原发性前列腺癌分期中的诊断能力：一项探索性研究。

背景：目的：研究基于人工智能（AI）的半定量动态对比增强（DCE）多参数磁共振成像（mpMRI），在[18F]-PSMA-1007 PET/MRI的基础上，区分原发性前列腺癌（PC）患者前列腺组织良恶性的能力：共有七名患者接受了全身[18F]-PSMA-1007 PET/MRI检查，包括盆腔mpMRI方案的T2w、弥散加权成像（DWI）和DCE图像系列。常规分析包括 PET/MRI 图像的目视阅读和前列腺成像报告与数据系统（PI-RADS）评分。在前列腺层面，我们根据 PC 可疑病灶的 DCE 分段数据进行了手动分段，以形成时间-强度曲线参数和半定量分析。此外，我们还应用了最近推出的深度学习（DL）管道，该管道之前在 1010 次独立 MRI 检查中进行过训练，并带有系统的活检增强组织病理学靶向活检病灶基本真相，以便执行基于人工智能的病灶检测、前列腺分割和推导深度学习 PI-RADS 评分。比较了人工和自动 DL 获取的分割的 DICE 系数。根据对患者的分析，PET/MRI 在 6/7 例患者的前列腺中发现了 PC 可疑病变（格里森评分-GS ≥ 7b），并经组织学证实。其中四名患者还出现淋巴结转移，两名患者出现骨转移。一名GS为6的患者未发现PC可疑病变。根据 DCE 分割，利用拟合最大对比度（FMCR）和斜率（wash-in-slope）参数可以区分 PC 可疑病灶和正常组织。DICE系数（人工与深度学习）与文献值相当，平均为0.44。此外，深度学习管道还能识别所有六名临床上有明显PC病变的患者的睾丸内PC可疑病变：结论：首先，基于手动分割时间-强度曲线的半定量 DCE 分析能够区分良性和恶性组织。此外，对 MRI 数据进行 DL 分析可检测出所有病例中具有临床意义的 PC，这证明了人工智能辅助方法在提高 PSMA 放射配体 PET/MRI 诊断确定性方面的可行性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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