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引用次数: 0
摘要
背景:
在药物动力学分析中,所使用的分割方法对所获得的结果有很大影响,因此透明度非常重要。
创新:
本文介绍了一种图形用户界面(GUI)TRU-IMP,它可以分析动态核医学中的时间活动曲线和分割。该图形用户界面填补了目前定量分析动态核医学图像采集技术工具的空白。该图形用户界面包括各种分割技术,并可计算相关的不确定性。结果:图形用户界面在动态核医学模型的图像采集上进行了测试。结果:
该图形用户界面在动态核医学模型的图像采集上进行了测试,可以通过时间-活动曲线和提取的药物动力学参数对分割进行比较。该图形用户界面允许研究人员更好地展示和了解他们在定量动态核医学方面工作的可重复性、精确性和准确性。
可用性和实现:
源代码可在 GitHub 上免费获取:https://github.com/ArGilfea/TRU-IMP,并可从那里获取界面的位置。图形用户界面与 iOS 和 Windows 操作系统完全兼容(未在 Linux 上测试)。此外,还提供了幻象采集功能,可轻松测试图形用户界面。
TRU-IMP: techniques for reliable use of images in medical physics; a graphical user interface to analyze and compare segmentations in nuclear medicine.
Background. In the context of pharmacokinetic analyses, the segmentation method one uses has a large impact on the results obtained, thus the importance of transparency.Innovation. This paper introduces a graphical user interface (GUI), TRU-IMP, that analyzes time-activity curves and segmentations in dynamic nuclear medicine. This GUI fills a gap in the current technological tools available for the analysis of quantitative dynamic nuclear medicine image acquisitions. The GUI includes various techniques of segmentations, with possibilities to compute related uncertainties.Results. The GUI was tested on image acquisitions made on a dynamic nuclear medicine phantom. This allows the comparison of segmentations via their time-activity curves and the extracted pharmacokinetic parameters.Implications. The flexibility and user-friendliness allowed by the proposed interface make the analyses both easy to perform and adjustable to any specific case. This GUI permits researchers to better show and understand the reproducibility, precision, and accuracy of their work in quantitative dynamic nuclear medicine.Availability and Implementation. Source code freely available on GitHub:https://github.com/ArGilfea/TRU-IMPand location of the interface available from there. The GUI is fully compatible with iOS and Windows operating systems (not tested on Linux). A phantom acquisition is also available to test the GUI easily.
期刊介绍:
BPEX is an inclusive, international, multidisciplinary journal devoted to publishing new research on any application of physics and/or engineering in medicine and/or biology. Characterized by a broad geographical coverage and a fast-track peer-review process, relevant topics include all aspects of biophysics, medical physics and biomedical engineering. Papers that are almost entirely clinical or biological in their focus are not suitable. The journal has an emphasis on publishing interdisciplinary work and bringing research fields together, encompassing experimental, theoretical and computational work.
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