伽利略——一种用于评估植入前肾活检的人工智能工具。

Galileo-an Artificial Intelligence tool for evaluating pre-implantation kidney biopsies.

作者信息

Eccher Albino, L'Imperio Vincenzo, Pantanowitz Liron, Cazzaniga Giorgio, Del Carro Fabio, Marletta Stefano, Gambaro Giovanni, Barreca Antonella, Becker Jan Ulrich, Gobbo Stefano, Della Mea Vincenzo, Alberici Federico, Pagni Fabio, Dei Tos Angelo Paolo

机构信息

Department of Medical and Surgical Sciences for Children and Adults, University of Modena and Reggio Emilia, University Hospital of Modena, Modena, Italy.

Department of Medicine and Surgery, Pathology, IRCCS Fondazione San Gerardo dei Tintori, University of Milano-Bicocca, Monza, Italy.

出版信息

J Nephrol. 2024 Oct 2. doi: 10.1007/s40620-024-02094-4.

DOI:10.1007/s40620-024-02094-4

PMID:39356416

Abstract

BACKGROUND

Pre-transplant procurement biopsy interpretation is challenging, also because of the low number of renal pathology experts. Artificial intelligence (AI) can assist by aiding pathologists with kidney donor biopsy assessment. Herein we present the "Galileo" AI tool, designed specifically to assist the on-call pathologist with interpreting pre-implantation kidney biopsies.

METHODS

A multicenter cohort of whole slide images acquired from core-needle and wedge biopsies of the kidney was collected. A deep learning algorithm was trained to detect the main findings evaluated in the pre-implantation setting (normal glomeruli, globally sclerosed glomeruli, ischemic glomeruli, arterioles and arteries). The model obtained on the Aiforia Create platform was validated on an external dataset by three independent pathologists to evaluate the performance of the algorithm.

RESULTS

Galileo demonstrated a precision, sensitivity, F1 score and total area error of 81.96%, 94.39%, 87.74%, 2.81% and 74.05%, 71.03%, 72.5%, 2% in the training and validation sets, respectively. Galileo was significantly faster than pathologists, requiring 2 min overall in the validation phase (vs 25, 22 and 31 min by 3 separate human readers, p < 0.001). Galileo-assisted detection of renal structures and quantitative information was directly integrated in the final report.

CONCLUSIONS

The Galileo AI-assisted tool shows promise in speeding up pre-implantation kidney biopsy interpretation, as well as in reducing inter-observer variability. This tool may represent a starting point for further improvements based on hard endpoints such as graft survival.

摘要

背景

移植前获取的活检组织的解读具有挑战性，部分原因是肾脏病理专家数量较少。人工智能（AI）可以通过协助病理学家评估肾脏供体活检来提供帮助。在此，我们展示了“伽利略”人工智能工具，其专门设计用于协助值班病理学家解读植入前肾脏活检。

方法

收集了一个多中心队列，其中包含从肾脏的粗针活检和楔形活检获取的全切片图像。训练了一种深度学习算法，以检测在植入前情况下评估的主要发现（正常肾小球、全球硬化性肾小球、缺血性肾小球、小动脉和动脉）。在Aiforia Create平台上获得的模型由三名独立病理学家在外部数据集上进行验证，以评估该算法的性能。

结果

在训练集和验证集中，伽利略分别表现出81.96%、94.39%、87.74%、2.81%以及74.05%、71.03%、72.5%、2%的精度、灵敏度、F1分数和总面积误差。伽利略比病理学家快得多，在验证阶段总共需要2分钟（相比之下，三名独立的人类读者分别需要25分钟、22分钟和31分钟，p < 0.001）。伽利略辅助检测的肾脏结构和定量信息直接整合到最终报告中。

结论

伽利略人工智能辅助工具在加快植入前肾脏活检解读以及减少观察者间差异方面显示出前景。该工具可能是基于移植物存活等硬终点进行进一步改进的起点。

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伽利略——一种用于评估植入前肾活检的人工智能工具。

Galileo-an Artificial Intelligence tool for evaluating pre-implantation kidney biopsies.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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