High resolution image reconstruction method for a double-plane PET system with changeable spacing

Breast-dedicated positroil emission tomography (PET) imaging techniques have been developed ill recent years. Their capacities to detect millimeter-sized breast tumors have been the subject of many studies. Some of them have been confirmed with good results in clinical applications. With regard to b...

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Published inChinese physics C Vol. 40; no. 5; pp. 111 - 120
Main Author 顾笑悦 周魏 李琳 魏龙 尹鹏飞 尚雷敏 贠明凯 卢贞瑞 黄先超
Format Journal Article
LanguageEnglish
Published 01.05.2016
Subjects
Blurring
Breast
Detectors
Modelling
Positron emission
Reconstruction
Recovery
Tomography
几何造型
宠物系统
平面
模糊建模
模糊效应
重建方法
间距
高分辨率图像
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Summary:Breast-dedicated positroil emission tomography (PET) imaging techniques have been developed ill recent years. Their capacities to detect millimeter-sized breast tumors have been the subject of many studies. Some of them have been confirmed with good results in clinical applications. With regard to biopsy application, a double-plane detector arrangement is practicable, as it offers the convenience of breast immobilization. However, the serious blurring effect of the double-plane PET, with changeable spacing for different breast sizes, should be studied. We investigated a high resolution reconstruction method applicable for a double-plane PET. The distance between the detector planes is changeable. Geometric and blurring components were calculated in real-time for different detector distances, and accurate geometric sensitivity was obtained with a new tube area model. Resolution recovery was achieved by estimating blurring effects derived front simulated single gamma response information. The results showed that tile new geometric modeling gave a more finite and smooth sensitivity weight in the double-plane PET. The blurri,lg component yielded contr~ust recovery levels that could not be reached without blurring modeling, and improved visual recovery of the smallest spheres and better delineation of the structures in the reconstructed images were achieved with tile blurring component. Statistical noise had lower variance at tile voxel level with blurring modeling at matched resolution, compared to without blurring modeling. In distance-changeable double-plane PET, finite resolution modeling during reconstruction achieved resolution recovery, without noise amplification.
Bibliography:Breast-dedicated positroil emission tomography (PET) imaging techniques have been developed ill recent years. Their capacities to detect millimeter-sized breast tumors have been the subject of many studies. Some of them have been confirmed with good results in clinical applications. With regard to biopsy application, a double-plane detector arrangement is practicable, as it offers the convenience of breast immobilization. However, the serious blurring effect of the double-plane PET, with changeable spacing for different breast sizes, should be studied. We investigated a high resolution reconstruction method applicable for a double-plane PET. The distance between the detector planes is changeable. Geometric and blurring components were calculated in real-time for different detector distances, and accurate geometric sensitivity was obtained with a new tube area model. Resolution recovery was achieved by estimating blurring effects derived front simulated single gamma response information. The results showed that tile new geometric modeling gave a more finite and smooth sensitivity weight in the double-plane PET. The blurri,lg component yielded contr~ust recovery levels that could not be reached without blurring modeling, and improved visual recovery of the smallest spheres and better delineation of the structures in the reconstructed images were achieved with tile blurring component. Statistical noise had lower variance at tile voxel level with blurring modeling at matched resolution, compared to without blurring modeling. In distance-changeable double-plane PET, finite resolution modeling during reconstruction achieved resolution recovery, without noise amplification.
11-5641/O4
breast PET, double-plane PET, reconstruction
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1674-1137
0254-3052
DOI:10.1088/1674-1137/40/5/058201