MAIB讲座第13期: A SyntheX-Realistic Synthesis for X-ray image逼真图

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MAIB讲座第13期: A SyntheX-Realistic Synthesis for X-ray image逼真图

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MAIB讲座第13期: A SyntheX-Realistic Synthesis for X-ray image逼真图像合成

本周的MAIB在线ZOOM讲座:

Date:10:00pm US East time, 05/13/2023

Date:10:00am Beijing time, 05/14/2023

Zoom ID:933 1613 9423

Zoom PWD:416262

URL: https://uwmadison.zoom.us/meeting/regis ... lnGn06TP2E



Image

Dr. Gao Cong graduated from the Department of Computer Science, Johns Hopkins University, and now works at IntuitiveSurgical.

The main research direction is surgical robot navigation system based on medical imaging, including X-ray image detection using deep learning, image registration and fusion, surgical robot system integration research and development, etc., related work published in Nature Machine Intelligence, IEEE Transactions on Biomedical Engineering , IEEE Transactions on Medical Robotics and Bionics and other academic conferences such as MICCAI, IPCAI and SPIE.

Background

We demonstrate the usefulness of realistic synthetic data in developing learning-based algorithms for X-ray image analysis in three clinical tasks: hip imaging, surgical robotic tool detection, and COVID-19 lesion segmentation. Our results show that simulated image formation from human models is a viable alternative to large-scale real data collection. Combined with domain randomization or adaptation techniques, our approach produces machine learning models that perform comparably to models trained on precisely matched real data sets. Additionally, training on synthetic data allows for larger, more varied data sets, resulting in improved performance compared to real data-trained models. Our technique accelerates the design and evaluation of intelligent surgical systems, making this technology more accessible to a diverse community.

Reference:

Gao, C., Killeen, B.D., Hu, Y., Grupp, R.B., Taylor, R.H., Armand, M. and Unberath, M., 2023. Synthetic data accelerates the development of generalizable learning-based algorithms for X-ray image analysis. Nature Machine Intelligence, pp.1-15.

Future Direction:

There are several exciting possibilities for the field of X-ray image analysis and machine learning. One of the most promising areas of research is the use of deep learning algorithms, such as convolutional neural networks, to improve the accuracy of image analysis and diagnosis. As these algorithms become more sophisticated, they will be able to detect subtle patterns and features in X-ray images that might be difficult for human experts to identify.

Another exciting area of research is the integration of X-ray imaging with other types of medical imaging, such as magnetic resonance imaging (MRI) and computed tomography (CT). Combining different types of imaging data could improve the accuracy of diagnosis and provide a more complete picture of a patient’s health.

Furthermore, the use of X-ray imaging and machine learning in personalized medicine is an exciting possibility. By analyzing a patient’s X-ray images and medical history, machine learning algorithms could be used to identify patients at high risk of developing certain conditions or to customize treatment plans based on an individual’s unique characteristics.

Finally, the development of new hardware and imaging techniques could further advance the field of X-ray image analysis. For example, the use of higher resolution X-ray detectors and new imaging modalities, such as phase contrast imaging, could provide more detailed images that could improve the accuracy of diagnosis and treatment planning.

我们展示了真实合成数据在开发基于学习的 X 射线图像分析算法在三个临床任务中的有用性:髋关节成像、手术机器人工具检测和 COVID-19 病变分割。 我们的结果表明,人体模型的模拟图像形成是大规模真实数据收集的可行替代方案。 结合域随机化或自适应技术,我们的方法生成的机器学习模型的性能与在精确匹配的真实数据集上训练的模型相当。 此外,对合成数据的训练允许更大、更多样化的数据集,从而与真实的数据训练模型相比提高了性能。 我们的技术加速了智能手术系统的设计和评估,使该技术更容易为多元化社区所用。

未来发展方向

1, 深度学习算法将在提高图像分析和诊断准确性方面发挥重要作用。随着这些算法变得更加复杂,它们将能够检测到X射线图像中人类专家难以识别的微小模式和特征。

2, 将X射线成像与其他类型的医学成像(如磁共振成像和计算机断层扫描)相结合,是一项令人兴奋的研究领域。组合不同类型的成像数据可以提高诊断的准确性,为患者的健康提供更完整的图像。

3, 在个性化医疗方面,X射线成像和机器学习的应用也非常有前途。通过分析患者的X射线图像和医疗历史,机器学习算法可以识别出高风险患者,或者根据个体的独特特征定制治疗计划。

4, 发展新的硬件和成像技术也将推动X射线图像分析领域的发展。例如,使用更高分辨率的X射线探测器和新的成像模式(如相位对比成像)可以提供更详细的图像,从而提高诊断和治疗规划的准确性。

过去10年这个领域的进展

在过去10年中,医学X射线图像分析和机器学习领域取得了显著的进展。以下是一些主要的发展趋势:`

1, 深度学习算法的崛起:深度学习算法,特别是卷积神经网络,已经成为医学X射线图像分析领域中的主要工具。这些算法可以识别复杂的图案和特征,从而提高了X射线图像的分析和诊断准确性。

2, 大数据的出现:随着医疗机构数字化的推进,越来越多的X射线图像被存储在电子健康记录系统中。这些大数据的出现为机器学习算法提供了更多的训练数据,进一步提高了算法的性能和准确性。

3, 个性化医疗的发展:医学X射线图像分析和机器学习的应用已经开始实现个性化医疗。机器学习算法可以根据患者的个体特征和医疗历史,为患者提供定制化的诊断和治疗方案。

4, 新的成像技术的出现:过去10年中,一些新的成像技术如全景X射线成像和数字化乳腺X射线成像技术得到了广泛的应用,这些新技术在X射线图像分析和诊断方面提供了更多的可能性。

5, 总的来说,医学X射线图像分析和机器学习领域在过去10年中取得了重大的进展,并为未来的发展提供了更多的可能性。




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Re: MAIB讲座第13期: A SyntheX-Realistic Synthesis for X-ray image逼真图

帖子 Tlexander楼主 »

人工智能(AI)现在可以自动解释医学影像。然而,AI在干预性影像分析方面的潜在应用仍然大部分未被开发利用。这是因为对实时手术数据进行事后分析存在根本和实际的限制,包括伦理考虑、费用、可扩展性、数据完整性和缺乏基准事实。在这里,我们展示了从人类模型中创建逼真的模拟图像是大规模现场数据收集的可行替代方法和补充。我们表明,将AI图像分析模型训练在逼真的合成数据上,结合当代域泛化技术,可以得到在真实数据上表现与在精确匹配的真实数据训练集上训练的模型相当的机器学习模型。我们发现,我们的X射线图像分析模型转移范例,我们称之为SyntheX,由于在更大的数据集上训练的有效性,甚至可以超过真实数据训练的模型。 SyntheX提供了大大加速基于X射线的智能系统的构思、设计和评估的机会。此外,SyntheX还提供了测试新型仪器、设计互补的外科手术方法以及构想可改善结果、节省时间或减轻人为错误的新技术的机会,不受现场人类数据收集的伦理和实际考虑的限制。
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Re: MAIB讲座第13期: A SyntheX-Realistic Synthesis for X-ray image逼真图

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友情提醒,30min后,本周的MAIB talk是讲X-ray影像学分析,欢迎大家分享给身边搞medical iamge的朋友,Dr. Gao Cong graduated from the Department of Computer Science, Johns Hopkins University, and now works at IntuitiveSurgical.

Title:MAIB-Talk-013: A SyntheX - Realistic Synthesis for X-ray Image Analysis
Date:10:00pm US East time, 05/13/2023
Date:10:00am Beijing time, 05/14/2023
Zoom ID:933 1613 9423
Zoom PWD:416262
Zoom: https://uwmadison.zoom.us/meeting/regis ... lnGn06TP2E
Tlexander楼主
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注册时间: 7月 22, 2022, 5:34 pm

Re: MAIB讲座第13期: A SyntheX-Realistic Synthesis for X-ray image逼真图

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