Artificial intelligence-based personalized clinical decision-making for patients with localized prostate cancer: surgery versus radiotherapy.

IF 4.8 2区医学 Q1 ONCOLOGY Oncologist Pub Date : 2024-12-06 DOI:10.1093/oncolo/oyae184

Yuwei Liu, Litao Zhao, Jiangang Liu, Liang Wang

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Abstract

Background: Surgery and radiotherapy are primary nonconservative treatments for prostate cancer (PCa). However, personalizing treatment options between these treatment modalities is challenging due to unclear criteria. We developed an artificial intelligence (AI)-based model that can identify patients with localized PCa who would benefit more from either radiotherapy or surgery, thereby providing personalized clinical decision-making.

Material and methods: Data from consecutive patients with localized PCa who received radiotherapy or surgery with complete records of clinicopathological variables and follow-up results in 12 registries of the Surveillance, Epidemiology, and End Results database were analyzed. Patients from 7 registries were randomly assigned to training (TD) and internal validation datasets (IVD) at a 9:1 ratio. The remaining 5 registries constituted the external validation dataset (EVD). TD was divided into training-radiotherapy (TRD) and training-surgery (TSD) datasets, and IVD was divided into internal-radiotherapy (IRD) and internal-surgery (ISD) datasets. Six models for radiotherapy and surgery were trained using TRD and TSD to predict radiotherapy survival probability (RSP) and surgery survival probability (SSP), respectively. The models with the highest concordance index (C-index) on IRD and ISD were chosen to form the final treatment recommendation model (FTR). FTR recommendations were based on the higher value between RSP and SSP. Kaplan-Meier curves were generated for patients receiving recommended (consistent group) and nonrecommended treatments (inconsistent group), which were compared using the log-rank test.

Results: The study included 118 236 patients, categorized into TD (TRD: 44 621; TSD: 41 500), IVD (IRD: 4949; ISD: 4621), and EVD (22 545). Both radiotherapy and surgery models accurately predicted RSP and SSP (C-index: 0.735-0.787 and 0.769-0.797, respectively). The consistent group exhibited higher survival rates than the inconsistent group, particularly among patients not suitable for active surveillance (P < .001).

Conclusion: FTR accurately identifies patients with localized PCa who would benefit more from either radiotherapy or surgery, offering clinicians an effective AI tool to make informed choices between these 2 treatments.

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基于人工智能的局部前列腺癌患者个性化临床决策：手术与放疗。

背景：手术和放疗是治疗前列腺癌（PCa）的主要非保守疗法。然而，由于标准不明确，在这些治疗方式之间进行个性化治疗选择具有挑战性。我们开发了一种基于人工智能（AI）的模型，该模型可以识别出哪些局部PCa患者会从放疗或手术中获益更多，从而提供个性化的临床决策：分析了监测、流行病学和最终结果数据库的12个登记处中接受过放疗或手术治疗、具有完整临床病理变量记录和随访结果的连续局部PCa患者的数据。来自 7 个登记处的患者按 9:1 的比例随机分配到训练数据集 (TD) 和内部验证数据集 (IVD)。其余 5 个登记处构成外部验证数据集 (EVD)。TD分为训练-放疗（TRD）和训练-手术（TSD）数据集，IVD分为内部-放疗（IRD）和内部-手术（ISD）数据集。利用 TRD 和 TSD 对放疗和手术的六个模型进行了训练，以分别预测放疗生存概率（RSP）和手术生存概率（SSP）。在IRD和ISD上一致性指数（C-index）最高的模型被选为最终治疗推荐模型（FTR）。FTR 推荐基于 RSP 和 SSP 之间的较高值。对接受推荐治疗（一致组）和不接受推荐治疗（不一致组）的患者生成卡普兰-梅耶曲线，并使用对数秩检验进行比较：研究纳入了 118 236 例患者，分为 TD（TRD：44 621 例；TSD：41 500 例）、IVD（IRD：4949 例；ISD：4621 例）和 EVD（22 545 例）。放疗和手术模型都能准确预测 RSP 和 SSP（C 指数分别为 0.735-0.787 和 0.769-0.797）。与不一致组相比，一致组的生存率更高，尤其是在不适合接受积极监测的患者中（P 结论：FTR能准确识别癌症患者：FTR能准确识别出从放疗或手术中获益更多的局部PCa患者，为临床医生在这两种治疗方法之间做出明智选择提供了有效的人工智能工具。

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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来源期刊

Oncologist 医学-肿瘤学

CiteScore

10.40

自引率

3.40%

发文量

309

审稿时长

3-8 weeks

期刊介绍： The Oncologist® is dedicated to translating the latest research developments into the best multidimensional care for cancer patients. Thus, The Oncologist is committed to helping physicians excel in this ever-expanding environment through the publication of timely reviews, original studies, and commentaries on important developments. We believe that the practice of oncology requires both an understanding of a range of disciplines encompassing basic science related to cancer, translational research, and clinical practice, but also the socioeconomic and psychosocial factors that determine access to care and quality of life and function following cancer treatment.