A Monte Carlo study of pinhole collimated Cerenkov luminescence imaging integrated with radionuclide treatment.

Q3 Biochemistry, Genetics and Molecular Biology

Australasian Physical & Engineering Sciences in Medicine Pub Date : 2019-06-01 Epub Date: 2019-03-04 DOI:10.1007/s13246-019-00744-7

Changran Geng, Yao Ai, Xiaobin Tang, Diyun Shu, Chunhui Gong, Fada Guan

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引用次数: 3

Abstract

Cerenkov luminescence imaging (CLI) is an emerging optical imaging technique, which has been widely investigated for biological imaging. In this study, we proposed to integrate the CLI technique with the radionuclide treatment as a "see-and-treat" approach, and evaluated the performance of the pinhole collimator-based CLI technique. The detection of Cerenkov luminescence during radionuclide therapy was simulated using the Monte Carlo technique for breast cancer treatment as an example. Our results show that with the pinhole collimator-based configuration, the location, size and shape of the tumors can be clearly visualized on the Cerenkov luminescence images of the breast phantom. In addition, the CLI of multiple tumors can reflect the relative density of radioactivity among tumors, indicating that the intensity of Cerenkov luminescence is independent of the size and shape of a tumor. The current study has demonstrated the high-quality performance of the pinhole collimator-based CLI in breast tumor imaging for the "see-and-treat" multi-modality treatment.

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结合放射性核素治疗的针孔准直切伦科夫发光成像的蒙特卡罗研究。

切伦科夫发光成像(CLI)是一种新兴的光学成像技术，在生物成像领域得到了广泛的研究。在这项研究中，我们提出将CLI技术与放射性核素治疗相结合，作为一种“观察和治疗”的方法，并评估了基于针孔准直仪的CLI技术的性能。以蒙特卡罗技术为例，模拟了放射性核素治疗过程中切伦科夫发光的检测。研究结果表明，基于针孔准直器的结构可以在乳房幻象的切伦科夫发光图像上清晰地显示肿瘤的位置、大小和形状。此外，多发肿瘤的CLI可以反映肿瘤间放射性的相对密度，表明切伦科夫发光强度与肿瘤的大小和形状无关。目前的研究已经证明了针孔准直仪在乳腺肿瘤成像中的高质量表现，用于“观察和治疗”的多模式治疗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Australasian Physical & Engineering Sciences in Medicine 工程技术-工程：生物医学

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Australasian Physical & Engineering Sciences in Medicine (APESM) is a multidisciplinary forum for information and research on the application of physics and engineering to medicine and human physiology. APESM covers a broad range of topics that include but is not limited to: - Medical physics in radiotherapy - Medical physics in diagnostic radiology - Medical physics in nuclear medicine - Mathematical modelling applied to medicine and human biology - Clinical biomedical engineering - Feature extraction, classification of EEG, ECG, EMG, EOG, and other biomedical signals; - Medical imaging - contributions to new and improved methods; - Modelling of physiological systems - Image processing to extract information from images, e.g. fMRI, CT, etc.; - Biomechanics, especially with applications to orthopaedics. - Nanotechnology in medicine APESM offers original reviews, scientific papers, scientific notes, technical papers, educational notes, book reviews and letters to the editor. APESM is the journal of the Australasian College of Physical Scientists and Engineers in Medicine, and also the official journal of the College of Biomedical Engineers, Engineers Australia and the Asia-Oceania Federation of Organizations for Medical Physics.