Classification of Prostate Transitional Zone Cancer and Hyperplasia Using Deep Transfer Learning From Disease-Related Images

医学 人工智能 深度学习 卷积神经网络 前列腺癌 学习迁移 增生 疾病 癌症 回顾性队列研究 前列腺 放射科 病理 计算机科学 内科学
作者
Bo Hu,Lin-Feng Yan,Yang Yang,Ying Yu,Qian Sun,Jin Zhang,Hai‐Yan Nan,Han Yu,Yu‐Chuan Hu,Ying‐Zhi Sun,Gang Xiao,Qiang Tian,Yue Cui,Jiahao Feng,Lianghao Zhai,Di Zhao,Guangbin Cui,Valerie Lockhart Welch,Elyse M. Cornett,Ivan Urits
出处
期刊:Cureus [Cureus, Inc.]
卷期号:13 (3): e14108-e14108 被引量:6
标识
DOI:10.7759/cureus.14108
摘要

Purpose The diagnosis of prostate transition zone cancer (PTZC) remains a clinical challenge due to their similarity to benign prostatic hyperplasia (BPH) on MRI. The Deep Convolutional Neural Networks (DCNNs) showed high efficacy in diagnosing PTZC on medical imaging but was limited by the small data size. A transfer learning (TL) method was combined with deep learning to overcome this challenge. Materials and methods A retrospective investigation was conducted on 217 patients enrolled from our hospital database (208 patients) and The Cancer Imaging Archive (nine patients). Using T2-weighted images (T2WIs) and apparent diffusion coefficient (ADC) maps, DCNN models were trained and compared between different TL databases (ImageNet vs. disease-related images) and protocols (from scratch, fine-tuning, or transductive transferring). Results PTZC and BPH can be classified through traditional DCNN. The efficacy of TL from natural images was limited but improved by transferring knowledge from the disease-related images. Furthermore, transductive TL from disease-related images had comparable efficacy to the fine-tuning method. Limitations include retrospective design and a relatively small sample size. Conclusion Deep TL from disease-related images is a powerful tool for an automated PTZC diagnostic system. In developing regions where only conventional MR scans are available, the accurate diagnosis of PTZC can be achieved via transductive deep TL from disease-related images.

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