We develop a novel strategy to generate synthetic tumors. Unlike existing works, the tumors generated by our strategy have two intriguing advantages: (1) realistic in shape and texture, which even medical professionals can confuse with real tumors; (2) effective for AI model training, which can perform liver tumor segmentation similarly to a model trained on real tumors - this result is unprecedented because no existing work, using synthetic tumors only, has thus far reached a similar or even close performance to the model trained on real tumors. This result also implies that manual efforts for developing per-voxel annotation of tumors (which took years to create) can be considerably reduced for training AI models in the future. Moreover, our synthetic tumors have the potential to improve the success rate of small tumor detection by automatically generating enormous examples of small (or tiny) synthetic tumors.
翻译:我们开发了一个创造合成肿瘤的新战略。 与现有的工程不同,我们的战略所产生的肿瘤具有两个有趣的优势:(1) 在形状和质地上现实,甚至医疗专业人员都可以与真正的肿瘤混为一谈;(2) 对AI模型培训有效,这种培训可以像对真正的肿瘤所训练的模式一样,对肝脏肿瘤进行分解 — — 这是前所未有的结果,因为目前没有一项仅使用合成肿瘤的工程,迄今为止已经达到与对真实肿瘤所训练的模式相似甚至接近的性能。 这一结果还意味着,未来对AI模型的培训可以大大减少对肿瘤进行每伏克斯笔记(需要多年时间才能产生)的手工努力。 此外,我们的合成肿瘤有可能通过自动生成小(或小)合成肿瘤的众多例子来提高小肿瘤检测的成功率。
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